MI Literature 1990 - current

1990


  • Bongers, T. (1990a). The maturity index: an ecological measure of environmental disturbance based on nematode species composition. Oecologia 83: 14-19
  • Bongers, T. (1990b). The use of the maturity index in biomonitoring terrestrial and aquatic ecosystems. In: Proceedings and abstracts. Second International Nematology Congress, Veldhoven, The Netherlands. P. 58-59
  • Bongers, T. (1990c). Biologische bodembeoordeling met nematoden. In: Handboek voor Milieubeheer (eds. F.A.M. de Haan, Ch.H.Henkens and D.A. Zeilmaker). Deel Bodem. Samson, H.D., Tjeenk Willink, Alphen aan de Rijn-Deurne. J2000 1-17
  • Bongers, T. & J. van de Haar (1990). On the potential of basing an ecological typology of aquatic sediments on the nematode fauna: an example from the river Rhine. Hydrobiological Bulletin 24 (1) 37-45.
  • Kappers, F.I. (1990). Ecologisch herstel van thermisch gereinigde grond. RIVM-rapport 718601002. 65 p.
  • Notenboom, J., K. de Boom & P. van Beelen (1990). Grondwaterlevensgemeenschappen: een studie naar meercellige organismen in het bovenste grondwater en de milieuhygienische implicaties. RIVM-rapport 710302001. 95 p.

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1991

  • Bongers, T. (1991). The maturity Index, an instrument based on the nematode community to monitor terrestrial, freshwater and marine habitats. Abstracts VIth International Conference: Bioindicatores Deteriorisationis Regionis, Ceske Budejovice, Sept. 15-21, 1991. p. 16
  • Bongers, T., R. Alkemade & G.W. Yeates (1991). Interpretation of disturbance-induced maturity decrease in marine nematode assemblages by means of the Maturity Index. Marine Ecology Progress Series 76: 135-142.
  • Bongers, T. & Y. Claassen (1991). Bepaling van de effecten van toxicanten op de nematodenfauna van het land van Saeftinghe. Verslag van het deelproject NEMA, in opdracht van Rijkswaterstaat Directie Zeeland ten behoeve van het project 'Nader onderzoek Waterbodemkwaliteit Land van Saeftinghe'. Mededeling nr. 248, Vakgroep Nematologie LUW
  • Bongers, T. & T. Schouten (1991). Nematodengemeenschappen als potentieel diagnostisch instrument voor chemische verontreinigingen. In: Flora en fauna chemisch onder druk (eds. G.P. Hekstra & F.J.M. van Linden). Pudoc Wageningen. p.175-186
  • Hekstra, G.P. (1991). Project ecologische inpasbaarheid van het omgaan met stoffen (PEIS) halverwege: naar een integratie van de hoofdlijnen. In: (G.P. Hekstra & F.J.M.van der Linden eds): Flora en Fauna chemisch onder druk. Pudoc Wageningen. p.311-376.
  • Straalen, N.M. van, & J.A.C. Verkley (1991). Leerboek Oecotoxicologie. VU uitgeverij, Amsterdam.
  • Tolsma, D.J., B. van Hattum, W.D. Denneman, H. Aiking, J.W.M. Wegener & W.P.Cofino (1991). Aanbevelingen voor de integratie van biotische parameters in het RIVM-bodemkwaliteitsmeetnet. IVM-publicatie R-91/16. VU-uitgeverij, Amsterdam. ISBN 90-5383-083-9.

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1992


  • Bernard, E.C. (1992). Soil nematode biodiversity. Biol. Fert. Soils 14: 99-103.
  • Bongers, T. (1992). De Nematodenfauna als bio-indicator voor de bodemkwaliteit. Report PIMM-project; Nematology Dept., Wag. Agric. Univ. 30 p.
  • Bongers, T. & G. Korthals (1992). De nematodenfauna als instrument voor het beoordelen van waterbodems. In: (V.d. Guchte & Hekstra eds.). Waterbodems, rol en lot?
  • Coull, B.C. and G.T. Chandler (1992). Pollution and meiofauna - Field, Laboratory and Mesocosm studies. Oceanography and Marine Biology 30: 191-271
  • Ocana, A & R. Morales (1992). The influence of ionic composition on the distribution of nematode species in springs of the province of Granada (Spain). Hydrobiologia 237: 81-92
  • Wodarz, D. E. Aescht & W. Foissner (1992). A weighted Coenotic Index (WCI): Description and application to soil animal assemblages. Biol. Fert. Soils 14: 5-13.

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1993

  • Bongers, T. & G. Korthals (1993). The maturity Index, an instrument to monitor changes in the nematode community structure. Abstracts Internationaal Symposium over Fytopharmacie en Fytiatrie, 4 mei 1993, Faculteit Landbouw en Toegepaste Biologische Wetenschappen Universiteit Gent. p.80
  • Ettema, C.H. & T. Bongers (1993). Characterization of nematode colonization and succession in disturbed soil using the Maturity Index. Biol. Fert. Soils 16: 79-85.
  • Ferris, H.(1993). New frontiers in nematode ecology. Journal of Nematology 25(3): 374-382.
  • Freckman, D.W. & C.H. Ettema (1993). Assessing nematode communities in agroecosystems of varying human intervention. Agric., Ecosyst. & Environm. 45: 239-261
  • Giere, O.(1993). Meiobenthology, the microscopic fauna in aquatic sediments. Springer-Verlag, Berlin, Heidelberg, New York, London, Paris, Tokyo, Hong Kong, Barcelona, Budapest.
  • Goede, R.G.M. de, (1993). Nematodes in a changing environment. Thesis. Landbouwuniversiteit Wageningen
  • Goede, R.G.M. de, T. Bongers & C. Ettema (1993). Graphical presentation and interpretation of nematode community structure: C-P triangles. Med. Fac. Landbouwwetenschappen Univ. Gent., 58/2b, 743-750.
  • Goede, R.G.M. de & H. H. Dekker (1993). Effects of liming and fertilization on nematode communities in coniferous forest soils. Pedobiologia 37: 193-209.
  • Goede, R.G.M. de, S.S. Georgieva, B.C. Verschoor & J.W. Kamerman (1993). Changes in nematode community structure in a primary succession of blown-out areas in a drift sand landscape. Fundam. Appl. Nematol., 16 (6): 501-523
  • Goede, R.G.M. de, B.C. Verschoor & S.S. Georgieva (1993). Nematode distribution, trophic structure and biomass in a primary succession of blown-out areas in a drift sand landscape. Fundam. Appl. Nematol., 16 (6): 525-538
  • Guchte, K. van de (1993). Dansmuggelarven en aalscholvers als indicatoren van vervuild bodemslib in sedimentatiegebieden van de Rijn. De Levende Natuur 1983 (2): 73-77
  • Hánĕl, L. (1993). Diversity of soil nematodes (Nematoda) in various types of ecosystems. Ekologia (Bratislava) 12 (3): 259-272.
  • Knaap, E. van der, R.J. Rodriguez and D.W. Freckman (1993). Differentiation of bacterial-feeding nematodes in soil ecological studies by means of arbitrarily-primed PCR. Soil Biol. Biochem. 25 (6): 1141-1151.
  • Moore, J.C. & P.C. de Ruiter (1993). Assessment of disturbance on soil ecosystems. Veterinary Parasitology 48: 75-85
  • Ruess, L. (1993). Die Nematodengesellschaften von Waldökosystemen, Auswirkungen anthropogener Einflusse. Dissertation Univ. Ulm.
  • Ruess, L., W. Funke & A. Breunig (1993). Influence of experimental Acidification on Nematodes, Bacteria and Fungi: Soil Microcosms and Field Experiments. Zool. Jb. Syst. 120: 189-199
  • Zoon, F.C., R. Troelstra & P.W.T. Maas (1993). Ecology of the plant-feeding nematode fauna associated with sea buckthorn (Hippophae rhamnoides L. spp. Rhamnoides) in different stages of dune succession. Fundam. Appl. Nematol., 16: 247- 258.

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1994


  • Bohlen, J.B. & C.A. Edwards (1994). The response of nematode trophic groups to organic and inorganic nutrient inputs in agroecosystems. In: Defining Soil Quality for a Sustainable Environment. Soil Science Society of America, Special Publication 35: 235-244
  • Bongers, T. and Korthals G. (1994). The behaviour of Maturity Index and Plant Parasite Index under enriched conditions. In: Proceedings of the 22nd International Nematology Symposium, p. 39 Gent, Belgium
  • Campbell, C. Lee et al. (1994). Environmental monitoring and assessment program - Agroecosystem Pilot Field Program Report - 1992. EPA/620/R-94/014. U.S. Environmental Protection Agency, Washington D.C.
  • Elliot, E.T. (1994). The potential use of soil biotic activity as an indicator of productivity, sustainability and pollution. in: (Eds: C.E. Pankhurst, B.M. Doube, V.V.S.R. Gupta & P.R. Grace) Soil Biota, management in sustainable farming systems. CSIRO, Australia. 250-256.
  • Esbroek, M.L.P. & A.J. Schouten (1994). Evaluatie van het bodemecologisch onderzoek aan vrijlevende nematoden op het RIVM. Deel 2: methodiekontwikkeling en daaraan gerelateerd experimenteel onderzoek. RIVM-rapport 712910002.
  • Essink, K. & K. Romeyn (1994). Estuarine nematodes as indicators of organic pollution; an example from the Ems estuary (The Netherlands). Neth. J. Aq. Ecol. 28 (2): 213-219
  • Goede, R.G.M. de, & T. Bongers (1994). Nematode community structure in relation to soil and vegetation characteristics. Applied Soil Ecology 1 (1): 29-44
  • Hodda, M. & F.R. Wanless (1994). Nematodes from an English chalk grassland: population ecology. Pedobiologia 38: 530-545
  • Leliveldt, B. & D. Sturhan (1994). Untersuchungen über Auswirkungen unterschiedlicher Bewirtschaftungsintensität auf die Nematodenzönose eines Ackerbodens. Mitt. Biol. Bundesanst. Land u. Forstwirtschaft, Berlin Dahlem: 318-352.
  • Linden, D.R., P.F. Hendrix, D.C. Coleman & P.C.J. van Vliet. (1994). Faunal Indicators of soil quality. In: Defining Soil Quality for a Sustainable Environment. Soil Science Society of America, Special Publication 35: 91-106.
  • Neher, D.A. & C.L. Campbell (1994). Nematode communities and microbial biomass in soils with annual and perennial crops. Applied Soil Ecology 1 (1): 17-28
  • Popovici, I. (1994). Nematodes as indicators of ecosystem disturbance due to pollution. Studia Univ. Babes-Boyai Biologia 37 [1992] (2): 15-27.
  • Rademaker M., M.L.P. van Esbroek & A.J. Schouten (1994). Methodiekontwikkeling voor een bioassay met nematoden in natuurlijke grond. RIVM-rapport nr. 719102030.
  • Schouten, A.J. en M.L.P. van Esbroek (1994). Evaluatie van het bodemecologisch onderzoek aan vrijlevende nematoden op het RIVM. Deel 1: Historisch overzicht, behaalde resultaten en perspectieven voor de toekomst. RIVM-rapport 712910001. 103 p.
  • Sikora, P.A., R.D. Schuster & S. Kiewnich (1994). Indexing biodiversity and antagonistic potential in agricultural soil of Madagaskar. Med. Fac. Landbouww. Univ. Gent 59/2b: 781-790
  • Steinberg, C.E.W., Geyer, H.J. and A.A.F. Kettrup (1994). Evaluation xenobiotic effects by ecological techniques. Chemosphere 28 (2): 357-374.
  • Wasilewska, L. (1994a). Changes in biotic indices in meadow ecosystems after drainage of fens. In: Proc. Intern. Symp. "Conservation and management of fens", June 9-10, 1994, pp. 407-416. Warsaw-Biebrza, Poland, Institute for Land Reclamation and Grassland Farming in Falenty.
  • Wasilewska, L. (1994b). The effect of age of meadows on succession and diversity in soil nematode communities. Pedobiologia 38: 1-11.
  • Yeates, G.W. (1994). Modification and qualification of the Nematode Maturity Index. Pedobiologia 38: 97-101.
  • Yeates, G.W. & A.F. Bird (1994). Some observations on the influence of agricultural practices on the nematode faunae of some South Australian soils. Fundam. Appl. Nematol., 17 (2): 133-145

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1995

  • Alkemade, J.R.M. and A.J. Schouten (1995). Toepassingsmogelijkheden van bodembiologische gegevens in Milieubalans en Milieuverkenningen. RIVM-rapport 712901002. 30 p.
  • Alphei, J. (1995). Die freilebenden Nematoden von Buchenwäldern mit unterschiedlicher Humusform: Struktur der Gemeinschaften und Funktion in der Rhizosphäre der Krautvegetation. Berichte des Forschungszentrums Waldökosysteme, Reihe A, Bd. 125 (ISSN 0939-1347). 166 p.
  • Andrzejewska, L., Wasilewska, L., and Zelazo, J. (1995). Prospects of restoring water courses and wetlands (in Polish with English Summary). In: ed. L. Tomiaeoja. Ekologiczne aspekty melioracji wodnych. Wyd. Inst. Ochrony Przyrody PAN, Krakow, pp. 85-105
  • Assheuer, T. (1995). Vertikalverteilung pflanzenparasitärer Nematoden im Boden. Dissertation Justus-Liebig-Universitaet Giessen. 184 p.
  • Bongers, T., R.G.M. de Goede, G.W. Korthals & G.W. Yeates (1995). Proposed changes of c-p classification for nematodes. Russian Journal of Nematology 3 (1): 61-62
  • Bongers, T. & G. Korthals (1995). The behaviour of MI and PPI under enriched conditions. Nematologica 41 (3): 286
  • Diedrich, Ch., G. Broll & D. Sturhan (1995). Einfluss unterschiedlich extensiver Nutzung auf die Nematodenfauna ausgewählter Feuchtgrünlandstandorte Nordwestdeutschlands. Mitteilgn. Dtsch. Bodenkundl. Gesellsch., 75: 23-26
  • Esbroek, M.L.P., J.R.M. Alkemade & A.J. Schouten (1995). Landelijk Meetnet Bodemkwaliteit. Deel 1: De nematodenfauna en de fosfaattoestand in de bodem van melkveehouderijbedrijven op zandgrond. RIVM. Rapp. nr 714801004.
  • Goede, R.G.M. & T. Bongers (1995). De Maturity Index en c-p driehoeken als indicator voor bodemkwaliteit. In: A.J. Schouten, J. Wiertz, J.R.M. Alkemade & M.L.P. Esbroek (eds): Ontwikkeling van een biologische indicator voor bodemkwaliteit t.b.v. MB/MV. RIVM-rapport 712910004
  • Hánĕl, L.(1995). Secondary successional stages of soil nematodes in cambisols of South Bohemia. Nematologica 41: 197-218
  • Huang, S.P. & J.H. Cares (1995). Community composition of Plant-parasitic Nematodes in Native and Cultivated Cerrados of Central Brazil. Journal of Nematology 27(2): 237-243.
  • Neher, D.A. (1995). Biological Diversity in Soils of Agricultural and Natural Ecosystems. In: Exploring the Role of Diversity in Sustainable Agriculture. American Soc. of Agronomy, Crop Science Society of America, Soil Science Society of America. p. 55-72.
  • Neher, D.A., S.L. Peck, J.O. Rawlings & C.L. Campbell (1995). Measures of nematode community structure and sources of variability among and within agricultural fields. Plant and Soil 170: 167-181
  • New, T.R. (1995). An introduction to invertebrate conservation biology. Oxford Science Publications, Oxf. NY, Melbourne. 194 p.
  • Popovici, I. (1995). The use of soil nematodes to assess the quality of technogenic soil rehabilitation. Stud. Univ. Babes-Bolyai Biologia 38 [1993]: 43-53
  • Popovici, I. and G. Korthals (1995). Soil nematodes used in the detection of habitat disturbance due to industrial pollution. Studia Univ. Babes-Bolyai, Biologia, 38 [1993], 1-2: 37-41
  • Porazinska, D.L. & D.C. Coleman (1995). Ecology of nematodes under influence of Cucurbita spp. and different fertilizer types. J. of Nematology (Suppl.): 27 (4S): 617-623.
  • Rahaman, P.F. & I. Ahmad (1995). Community analysis of predatory nematode species from Aligarh soils, India. Nematol. Medit. 23: 57-60
  • Robertson, G.P. and D.W. Freckman (1995). The spatial distribution of nematode trophic groups across a cultivated ecosystem. Ecology 76 (5): 1425-1432.
  • Ruess, L. (1995). Nematode fauna in spruce forest soils: a qualitative/quantitative comparison. Nematologica 41: 106-124
  • Ruess, L. (1995). Studies on the nematode fauna of an acid forest soil: spatial distribution and extraction. Nematologica 41: 229-239
  • Ruess, L. & W. Funke (1995). Nematode fauna of a spruce stand associated with forest decline. Acta Zool. Fennica 196: 348-351
  • Salminen, J. J. Haimi, A. Sironen & J. Ahtiainen (1995). Effects of pentachlorophenol and biotic interactions on soil fauna and decomposition in humus soil. Ecotoxicology and Environmental Safety 31: 250-257
  • Schouten, T. (1995). Recovery of nematodes from Scots pine soil- and litter bulk samples: effects of mixing and addition of water. Pedobiologia 39: 277-288
  • Schouten, A.J., J. Wiertz, J.R.M. Alkemade & M.L.P. Esbroek (1995). Ontwikkeling van een biologische indicator voor bodemkwaliteit t.b.v. MB/MV. RIVM-rapport nr 712910004
  • Soetaert, K., M. Vincx, J. Wittoeck & M. Tulkens (1995). Meiobenthic distribution and nematode community structure in five European estuaries. Hydrobiologia 311: 185-206.
  • Traunspurger, W. C. Steinberg & T. Bongers (1995). Nematoden in der ökotoxikologischen Forschung. UWSF-Z. Umweltchem. Ökotox. 7 (2): 74-83.
  • Trudgill, D.L. (1995). An assessment of the relevance of thermal time relationships to nematology. Fund. appl. Nematol. 18 (5): 407-417
  • Vinciguerra, M.T., M. Clausi & G. La Rosa (1995). Analisi del popolamento nematologico di una pineta d'Aleppo in Sicilia. Suppl. Nematol. Medit. 23: 49-55
  • Wardle, D.A., G.W. Yeates, R.N. Watson & K.S. Nicholson (1995). Development of the decomposer food-web, trophic relationships, and ecosystem properties during a three-year primary succession in sawdust. Oikos 73: 155-166
  • Wasilewska, L. (1995a). Maturity and diversity of nematodes versus long-term succession after stress. Nematologica, 41: 353
  • Wasilewska, L. (1995b). Differences in development of soil nematode communities in single- and multi-species grass experimental treatments. Applied Soil Ecology 2: 53-64
  • Wasilewska, L. (1995c). Nicienie glebowe jako wskazniki procesow ekologicznych [soil nematodes as indicators of ecological processes]. Przeglad Zoologiczny XXXIX (3-4): 203-212.
  • Wasilewska, L. & A. Kajak (1995). Influence of plant diversity on soil organisms and soil processes in grasslands. 1. Field Study. In: Functioning and dynamics of natural and perturbed ecosystems (eds: D. Bellan, G. Bonin, C. Emig). Lavoisier, Intercept Ltd, Paris.
  • Yeates, G.W. (1995). Effect of sewage effluent on soil fauna in a Pinus radiata plantation. Austr. J. Soil Research 33: 555-564
  • Yeates, G.W., V.A. Orchard & T.W. Speir (1995). Reduction in faunal populations and decomposition folowing pasture contamination by a Cu-Cr-As based timber preservative. Acta Zool. Fennica 196: 297-300

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1996

  • Alkemade, J.R.M., A.J. Schouten, P. Kersten & M.L.P. van Esbroek (1996). Vergelijking van effectniveaus voor bodemorganismen met het maximaal toelaatbare risico. RIVM-rapport nr. 607505001
  • Armendariz, I. and P. Arpin (1996). Nematodes and their relationship to forest dynamics: I. Species and trophic groups. Biol. Fert. Soils 23: 405-413
  • Armendariz, I., M.A. Hernandez & R. Jordana (1996). Temporal evolution of soil nematode communities in Pinus nigra forest of Navarra, Spain. Fundam.appl. Nematol. 19 (6): 561-577.
  • Bongers, T. & Korthals, G. (1996). Nematode communities as indicators of nutrient enrichment. Nematropica 26 (3): 195-196.
  • Brzeski, M.W. (1996). Changes of the nematode fauna in the successive age classes of a Scots pine forest. Fragmenta Faunistica (1995) 38 (15): 339-345.
  • Coleman, D.C. and D.A. Crossley (1996). Fundamentals of soil ecology. Academic Press, Inc. (London)
  • Doran, J.W., M. Sarrantonio and M.A. Liebig (1996). Soil health and sustainability. In: D.L. Sparks (ed.): Advances in Agronomy, Vol.56. Academic Press Inc., San Diego, CA.: 1 - 54.
  • Esbroek, M.L.P. van, A.J. Schouten en J.R.M. Alkemade (1996). Landelijk Meetnet Bodemkwaliteit: Nematodenfauna Deel 2: Bemonstering 1994 (boslocaties op zandgrond). RIVM-rapport 714801010.
  • Ferris, H., M. Eyre, R.C. Venette and S.S. Lau (1996). Population energetics of bacterial-feeding nematodes: stage-specific development and fecundity rates. Soil. Biol. Biochem. 28 (3): 271-280.
  • Ferris, H., R.C. Venette & S.S.Lau (1996). Dynamics of nematode communities in tomatoes grown in conventional and organic farming systems, and their impact on soil fertility. Applied Soil Ecology 3: 161-175
  • Giller, P.S. (1996). The diversity of soil communities, the 'poor man's tropical rainforest'. Biodiversity and Conservation 5: 135-168
  • Goede, R.G.M. de, (1996). Effects of sod-cutting on the nematode community of a secondary forest of Pinus sylvestris L. Biol. Fert. of Soils 22: 227-236
  • Hánĕl, L. (1996a). Soil nematodes in five spruce forests of the Beskydy mountains, Czech Republic. Fundam. appl. Nematol. (19): 15-24
  • Hánĕl, L. (1996b). Comparison of soil nematode communities in three spruce forests at the Boubin Mount, Czech Republic. Biologia, Bratislava 51 (5): 485-493
  • Hánĕl, L. (1996c). Soil nematodes (Nematoda) in forest ecosystems of the Krivolatsko biosphere reserve, Czech Republic. Casopis Narodniho muzea Rada prirodovedna 165 (1-4): 91-103.
  • Kajak, A. and Wasilewska, L. (1996). The species diversity of organisms and the course of the decomposition of matter in cultivated soils (in Polish with English summary). Zeszyty Naukowe Komitetu "Czlowiek I Srodowisko", 15: 129-144
  • Korthals, G.W., A.D. Alexiev, T.M. Lexmond, J.E. Kammenga & T. Bongers (1996). Long-term effects of Copper and pH on the nematode community in an agroecosystem. Environmental Toxicology and Chemistry 15 (6): 979-985.
  • Korthals, G.W., A. van der Ende, H. van Megen, T. M. Lexmond, J.E. Kammenga and T. Bongers (1996). Short-term effects of cadmium, copper, nickel and zinc on soil nematodes from different feeding and life-history strategy groups. Applied Soil Ecology 4: 107-117.
  • Korthals, G.W., R.G.M. de Goede, J.E. Kammenga & T. Bongers (1996). The Maturity Index as an instrument for risk assessment of soil pollution. In: N.M. van Straalen & D.A. Krivolutsky (eds.): Bioindicator systems for Soil Pollutions 85-93.
  • Kunin, W.E. and J. Lawton (1996). Does biodiversity matter? Evaluating the case for conserving species. In: Biodiversity, A biology of numbers and difference (Ed. K.J. Gaston). Blackwell Science. p. 283-308.
  • Lawton, J.H., D.E. Bignell, G.F. Bloemers, P. Eggleton & M.E. Hodda (1996). Carbon flux and diversity of nematodes and termites in Cameroon forest soils. Biodiversity and Conservation 5: 261-273.
  • McSorley, R. & J.J. Frederick (1996). Nematode community structure in rows and between rows of a soybean field. Fundam. Appl. Nematol. 19 (3): 251-261
  • Moore, J.C., P.C. de Ruiter, H.W. Hunt, D.C. Coleman and D.W. Freckman (1996). Microcosms and soil ecology: critical linkages between field studies and modelling food webs. Ecology 77 (3): 694-705
  • Nagy, P (1996). Szabadon elo fonalfergek bioindikacios szerepenek vizsgalata. Godollo Agrartudomanyi Egyetem Mezogazdasagtudomanyi Kar. Thesis, 68 p.
  • Neher, D.A. & C.L. Campbell (1996). Sampling of regional monitoring of nematode communities in agricultural soils. Journal of Nematology 28 (2): 196-208
  • Neilson, R., B. Boag & L.F. Palmer (1996). The effect of environment on marine nematode assemblages as indicated by the Maturity Index. Nematologica 42: 232-242
  • Niemann, R. (1996). Ökotoxikologische Beurteilung kontaminierter Böden durch die Erfassung der Nematodenfauna. Ed. Wissenschaft; Reihe Biologie, BD 70. Diss. Uni. Münster.
  • Niemann, R. M. Arens, K. Koczwara & D. Sturhan (1996). Untersuchungen über die Eignung von Nematoden zur Gütebewertung von Fliessgewässer. Mitt. Biol. Bundesanst. Land-Forstwirtsch. Berlin-Dahlem 317: 195-208
  • Popovici, I. and M. Ciobanu (1996). Nematode diversity of the vegetated cliffs of the Romanian Carpathians. Proceedings of 'Research, Conservation, Management' Conference Aggtelek, Hungary, 1-5 May 1996: 447-459
  • Ruess, L., P. Sandbach, P. Cudlin, J. Dighton and A. Crossley (1996). Acid deposition in a spruce forest soil: effects on nematodes, mycorrhizas and fungal biomass. Pedobiologia 40: 51-66
  • Salminen, J. & P. Sulkava (1996). Distribution of soil animals in patchily contaminated soil. Soil Biol. Biochem 28 (10/11): 1349-1355
  • Schmidtfrerick, K., H.-J Brauckmann, G. Broll und D. Sturhan (1996). Untersuchungen zur Nematodenfauna einer Grünlandbrache in Baden-Württemberg. Mitt. Deutschen Bodenk. Gesellsch. 82: 241-244
  • Sohlenius, B. (1996). Structure and composition of the nematode fauna in pine forest soil under the influence of clearcutting. - Effects of slash removal and field layer vegetation. Eur. J. Soil Biology 32 (1): 1-14
  • Traunspurger, W. & C. Drews (1996). Toxicity analysis of freshwater and marine sediments with meio- and macrobenthic organisms: a review. Hydrobiologia 328: 215- 261
  • Wasilewska, L. (1996). The influence of acid rain on soil nematode communities: a comparison of contaminated habitats in the belt of the Karkonosze and Izerskie mountains (south-west Poland) with uncontaminated areas in other regions of Poland. Ekologia Polska 44: 73-110.
  • Yeates, G.W. (1996a). Nematode Ecology. Russian Journal of Nematology 4 (1): 71-75
  • Yeates, G.W. (1996b). Diversity of nematode faunae under three vegetation types on a pallic soil in Otago, New Zealand. New Zealand Journal of Zoology 23: 401-407
  • Yeates, G.W. & H. van der Meulen (1996). Recolonization of methyl-bromide sterilized soils by plant and soil nematodes over 52 months. Biol. Fert. Soils 21: 1-6
  • Yeates, G.W. and D.A. Wardle (1996). Nematodes as predators and prey; relationships to biological control and soil processes. Pedobiologia 40: 43-50
  • Zunke, U. and R. Perry (1996). Nematodes: harmful and beneficial organisms. In: Fauna in soil ecosystems (G.Benckiser, ed.). Marcel Dekkers, inc. NY.: 85-133.

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1997

  • Bloemers, G.F., M. Hodda, P.J.D. Lambshead, J.H. Lawton & F.R. Wanless (1997). The effects of forest disturbance on diversity of tropical soil nematodes. Oecologia 111: 575- 582
  • Bongers, T. (1997). Nematode systematics in relation to agricultural and environmental studies. Abh. Ber. Naturkundemus. Görlitz 69, 2: 31-32.
  • Bongers, T., H. van der Meulen & G. Korthals (1997). Inverse relationship between the nematode maturity index and plant parasite index under enriched nutrient conditions. Applied Soil Ecology 6: 195-199.
  • Brussaard, L., V.M. Behan-Pelletier, D.E. Bignell, V.K. Brown, W. Didden, P. Folgarait, C. Fragosco, D.W. Freckman, V.V.S.R. Gupta, T. Hattori, D.L. Hawksworth, C. Klopatek, P. Lavelle, D.W. Malloch, J. Rusek, B. Soderstrom, J.M. Tiedje and R.A. Virginia (1997). Biodiversity and ecosystem functioning in soil. Ambio 26 (8): 563-570.
  • Dennis, J.L., M.H.A.Z. Mutwakil, K.C. Lowe and D.I. de Pomerai (1997). Effects of metal ions in combination with a non-ionic surfactant on stress responses in a transgenic nematode. Aquatic Toxicology 40: 37-50.
  • Esbroek, M.L.P., J.R.M. Alkemade & A.J. Schouten (1997). Landelijk Meetnet Bodemkwaliteit: Nematodenfauna Deel 3: Bemonstering 1995 (Akkerbouwgebieden op Zandgrond). RIVM Rapport 714801011. 36 p.
  • Esbroek, M.L.P. en A.J. Schouten (1997). Landelijk meetnet bodemkwaliteit: Nematodenfauna Deel 4: Bemonstering 1995 (melkveehouderijbedrijven op veen). RIVM-report 714801016. 30 p.
  • Ferris, H., R.C. Venette and S.S. Lau (1997). Population energetics of bacterial-feeding nematodes: carbon and nitrogen budgets. Soil. Biol. Biochem. 29 (8): 1183-1194.
  • Fuller, M.E., K.M. Scow, S. Lau and H. Ferris (1997). Trichloroethylene (TCE) and toluene effects on the structure and function of the soil community. Soil Biol. Biochem. 29 (1): 75-89
  • Ghabbour, S.I. & Mikhail, W.Z.A. (1997). Soil mesofauna in unstable environments and their population density-biomass relationship: Cases from the Egyptian deserts. Geobios 30 (Suppl. 2): 135-144.
  • Gräfe, U. (1997). Von der Spezies zun Ökosystem: der Bewertungsschritt bei der bodenbiologischen Diagnose. Abh. und Berichte des Naturkundemus. Görlitz. Band 69 (2):45-53.
  • Gupta, V.V.S.R. and G.W. Yeates (1997). Soil microfauna as indicators of soil health. In: Biological Indicators of Soil Health (Eds. C.E. Pankhurst, B.M. Doube and V.V.S.R. Gupta). CAB International. pp 201-233.
  • Hánĕl, L (1997). Soil nematodes (Nematoda) of peaty and drained meadows at Senotin in South Bohemia, Czech Republic. Casopis Narodniho Muzea Rada prirodovedna 166: (1-4): 15-25
  • Hottinger, L. (1997). Shallow benthic foraminiferal assemblages as signals for depth of their deposition and their limitations. Bull. Soc. Geologique France 168 (4): 491-505.
  • Korthals, G. (1997). Pollutant induced changes in terrestrial nematode communities. Thesis, Wag, Agr. Univ. 107 p.
  • Lau, S.S., M.E. Fuller, H. Ferris, R.C. Venette & K.M. Scow (1997). Development and testing of an Assay for soil ecosystem health using the bacterial-feeding nematode Cruznema tripartitum. Ecotox. and Envir. Safety 36: 133- 139
  • Lawlor, K., K. Sublette, K. Duncan, E. Levetin, P. Buck, H. Wells, E. Jennings, S. Hettenbach, S. Bailey, J.B. Fisher & T. Todd (1997). Long-term effects of crude oil contamination and bioremediation in a soil ecosystem. Bioremediation Journal 1 (1): 41-51.
  • McSorley, R. (1997). Relationship of crop and rainfall to soil nematode community structure in perennial agroecosystems. Appl. Soil Ecol. 6: 147-159
  • McSorley, R. (1997). Correlation of nematode densities and rainfall in a Florida pasture. Soil and Crop Sc. Soc. Florida Proc. 56: 55-57
  • Pate, E. (1997). Analyse spatio-temporelle des peuplements de nématodes du sol dans les systèmes de culture à jachères, au Sénégal. Thesis, University Lyon, France. 208 p.
  • Putten, W.H. van der, V.K. Brown, S.S.Dhillion, C. van Dijk, D. Gormsen, K. Hedlund, G.W. Korthals, S. Lavorel, J. Leps, S. Mortimer, C. Rodriguez-Barrueco, J. Roy, S, Rundgren and P. Smilauer (1997). Interaction between Soil Biodiversity, Vegetation and Ecosystem Processes. In (Wolters, V. ed). Functional implications of biodiversity in soil. European Commission, Ecosystem research report 24: 87-96.
  • Ruf, A. (1997). Fortpflanzungsbiologie von Raubmilben und Charakterisierung von Böden - Ein Konzept zur Indikation von Belastungszustände von Böden. Abh. und Berichte des Naturkundemus. Görlitz. Band 69 (2): 209-216.
  • Schouten, A.J., L. Brussaard, P.C. de Ruiter, H. Siepel & N.M. van Straalen (1997). Een indicatorsysteem voor life support functies van de bodem in relatie tot biodiversiteit. RIVM-rapport 712910005.
  • Sohlenius, B. (1997). Fluctuations of nematode populations in pine forest soil. Influence by clear-cutting. Fundam. Appl. Nematol. 20: 103-114.
  • Straalen, N.M. van, & H.A. Verhoef (1997). The development of a bioindicator system for soil acidity based on arthropod pH preferences. J. Appl. Ecology 34: 217-232.
  • Valocká, B. and M. Sabová (1997a). Communities of soil and plant nematodes in two types of grass land. Helminthologia 34 (2): 97-103
  • Valocká, B., and M. Sabová (1997b). Structure of soil nematode communities in some regions of Slovakia with different pollution levels. Biologia 52 (5): 609-613.
  • Venette, R.C. and H. Ferris (1997). Thermal constraints to population growth of bacterial-feeding nematodes. Soil Biol. Biochem. 29 (1): 63-74
  • Wasilewska, L. (1997). The relationship between the diversity of soil nematode communities and the plant species richness of meadows. Ekologia Polska, 45: 719-732.
  • Yeates, G.W., R.D. Bardgett, R. Cook, P.J. Hobbs, P.J. Bowling, J.F. Potter (1997). Faunal and microbial diversity in three Welsh grassland soils under conventional and organic management regimes. Journal of Applied Ecology 34: 453-470.
  • Yeates, G.W. and K.L. King (1997). Soil nematodes as indicators of the effect of management on grasslands in the New England Tablelands (NSW): comparison of native and improved grasslands. Pedobiologia 41: 526-536
  • Yeates, G.W., K.R. Tate & P.C.D. Newton (1997). Response of the fauna of a grassland soil to doubling of atmospheric carbon dioxide concentration. Biol. Fert. Soils 25: 307- 315
  • Yeates, G.W., P.J. Waller and K.L. King (1997). Soil nematodes as indicators of the effect of management on grasslands in the New England Tablelands (NSW): effect of measures for control of parasites of sheep. Pedobiologia 41: 537-548
  • Zimdars, B. (1997). Zum Problem der Gattungsdefinition am Beispiel der Onychiurinae (Collembola). Abh. und Berichte des Naturkundemus. Görlitz. Band 69 (2): 179-189.

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1998

  • Alphei, J. (1998). Differences in soil nematode community structure of beech forests: Comparison between a mull and a moder soil. Applied Soil Ecology 9: 9-15
  • Bardgett, R.D. and R. Cook (1998). Functional aspects of soil animal diversity in agricultural grasslands. Applied Soil Ecology 10: 263-276
  • Bardgett, R.D., S. Keiller, R. Cook and A.S. Gilburn (1998). Dynamic interactions between soil animals and microorganisms in upland grassland soils amended with sheep dung: a microcosm experiment. Soil Biol. Biochem. 30 (4): 531-539.
  • Barker, K.R. and S.R. Koenning (1998). Developing sustainable systems for nematode management. Annu. Rev. Phytopathol. 36: 165-205
  • Boag, B., P.M. Hebden, R. Neilson and S.J. Rodger (1998). Observations on the effect of different management regimes of set-aside land on nematode community structure. Applied Soil Ecology 9: 339-343
  • Boag, B. and Yeates, G.W. (1998). Soil nematode biodiversity in terrestrial ecosystems. Biodiversity and Conservation 7: 617-630
  • Bongers, T. and M. Bongers (1998). Functional diversity of nematodes. Applied Soil Ecology 10: 239-251.
  • Ciobanu, M. and I. Popovici (1998). Nematode communities from some Transylvanian salt-effected areas (Romania). First ecological evaluations. Studia Univ. Babes-Bolyai, Biologia, XLIII, (1-2): 37-43
  • Coleman, D.C., P.F. Hendrix and E.P. Odum (1998). Ecosystem Health: An Overview. In: Soil Chemistry and Ecosystem Health, SSSA Special publ. No 52: 1-20
  • Daniells, C., I. Duce, D. Thomas, P. Sewell, J. Tattersall and D.I. de Pomerai (1998). Transgenic nematodes as biomonitors of microwave-induced stress. Mutation Research 399: 55-64
  • Duncan, L.W. and J.W. Noling (1998). Agricultural Sustainability and Nematode Integrated Pest Management. In: Plant and nematode interactions, Agronomy Monograph 36: 251-287.
  • Esbroek, M.L.P. van, en A.J. Schouten (1998). Landelijk Meetnet Bodemkwaliteit: Nematodenfauna Deel 5: Bemonstering 1996 (Akkerbouwgebieden op zeeklei). RIVM-rapport nr. 714801019. 26 p.
  • Essink, K. & H. Keidel (1998). Changes in estuarine nematode communities following a decrease of organic pollution. Aquatic Ecology 32: 195-202
  • Ettema, C.H. (1998a). Soil nematode diversity: species coexistence and ecosystem function. J. Nematology 30 (2): 159-169.
  • Ettema, C.H. (1998b). The distribution, diversity and indicator potential of soil nematodes in nitrogen-loaded riparian ecosystems. Thesis, Univ. of Georgia, Athens
  • Ettema, C.H., D.C. Coleman, G. Vellidis, R. Lowrance and S.L. Rathbun (1998). Spatiotemporal distributions of bacterivorous nematodes and soil resources in a restored riparian wetland. Ecology 79 (8): 2721-2734
  • Ferris, H., R.C. Venette, H.R. van der Meulen and S.S. Lau (1998). Nitrogen mineralization by bacterial-feeding nematodes: verification and measurement. Plant and Soil 203: 159-171
  • Goede, R.G.M. de & T. Bongers (1998). Nematode communities of northern temperate grassland ecosystems. Focus Verlag, Giessen. 338 p.
  • Goede, R.G.M. de, and Th.S.van Dijk (1998). Establishment of carabid beetle and nematode populations in a nature restoration project after the abandonment of arable land. Applied Soil Ecology 9: 355-360
  • Goralczyk, A. (1998). Nematodes in a coastal dune succession: Indicators of soil properties? Applied Soil Ecology 9: 465- 469.
  • Gunapala, N., R.C. Venette, H. Ferris and K.M. Scow (1998). Effects of soil management history on the rate of organic matter decomposition. Soil Biol. Biochem 30 (14): 1917-1927.
  • Hánĕl, L. (1998). Distribution of nematodes in soil, mycorrhizal soil, mycorrhizae and roots of spruce forests at the Boubin Mount, Czech Republic. Biologia, Bratislava 53 (5): 593-603.
  • Ivezic, M., E. Raspudic and M. Mlinarevic (1998). Nematoloske zajednice kao indikatori promjena u agroekosustavu okopavina. Poljoprivreda 4 (1): 37-43.
  • Korthals, G.W., I.Popovici, I. Iliev and T.M. Lexmond (1998). Influence of perennial ryegrass on a copper and zinc affected terrestrial nematode community. Applied Soil Ecology 10: 73-85.
  • Lenz, R. and G. Eisenbeis (1998). An extraction method for nematodes in decomposition studies using the minicontainer-method. Plant and Soil 198: 109-116.
  • Lenz, R. and G. Eisenbeis (1998). The vertical distribution of decomposition activity and of litter-colonizing nematodes in soils under different tillage. Pedobiologia 42 (3): 193-204
  • Maraun, M., J. Alphei, M. Bonkowski, R. Buryn, S. Migge, M. Peter, M. Schaefer and S. Scheu (1999). Middens of the earthworm Lumbricus terrestris (Lumbricidae); microhabitats for micro- and mesofauna in forest soil. Pedobiologia 43: 276-287.
  • Munckhof, G.P.M. van den, M.F.X. Veul, C.A.M. van Gestel and J. Bloem (1998). Bodemkwaliteitsparameters stimulering gebruik ecotesten. Rapp. Progr. Geintegr. Bodemonderzoek 14. 38 p.
  • Neher, D.A. & M.E. Barbercheck (1998). Diversity and function of Soil Mesofauna. In Biodiversity in agroecosystems (eds. W.W. Collins and C.O. Qualset) CRC Press. p 27-47
  • Neher, D.A., K.N. Easterling, D. Fiscus and C.L. Campbell (1998). Comparison of nematode communities in agricultural soils of North Carolina and Nebraska. Ecological Applications 8 (1): 213-223.
  • New, T.R. (1998). Invertebrate Surveys for Conservation. Oxford Univ. Press. 240 p.
  • Niles, R.K. and D.W.Freckman (1998). From the ground up: Nematode Ecology in Bioassessment and Ecosystem Health. In: Plant and nematode interactions, Agronomy Monograph 36: 65-85.
  • Nombela, G., A. Navas and A. Bello (1998). Effects of crop rotations of cereals with vetch and fallow on soil nematofauna in Central Spain. Nematologica 44: 63-80
  • Panesar, T.S., V.G. Marshall and H.J. Barclay (1998). Soil nematodes in successional stages of douglas-fir forests. Northwest-Science 72 (Spec. issue 2): 98-100
  • Pasca, D., R. Crisan, V. Muntean, I. Popovici, S. Kiss, and M. Dragan-Bularda (1998). Enzymological and microbiological study of the evolution of a technogenic soil submitted to biological recultivation at the lead and zinc mine in Rodna Romania. Soil and Tillage Research 47 (1-2): 163-168.
  • Porazinska, D. (1998). Nematode communities as indicators of agricultural management practices. Thesis, Univ. of Florida, Gainesville, Florida, USA
  • Porazinska, L., R. McSorley, L.W. Duncan, R.N. Gallagher, T.A. Wheaten, L.R. Parsons (1998). Relationship between soil chemical status, soil nematode community, and sustainability indices. Nematropica 28 (2): 249-262.
  • Porazinska, D.L., R. McSorley, L.W. Duncan, J.H. Graham, T.A. Wheaton & L.R. Parsons (1998). Nematode community composition under various irrigation schemes in a citrus soil ecosystem. J. Nematology 30 (2): 170-178
  • Posthuma, L., C.A.M. van Gestel, C.E. Smit, D.J. Bakker and J.W. Vonk (1998). Validation of toxicity data and risk limits for soils: final rep. RIVM-report 607505004. 230 p.
  • Power, R.S., H.E. David, M.H.A.Z. Mutwakil, K. Fletcher, C. Daniells, M.A. Nowell, J.L. Dennis, A. Martinelli, R. Wiseman, E. Wharf and D.I. de Pomerai (1998). Stress-inducible transgenic nematodes as biomonitors of soil and water pollution. J. Bioscience 23 (4): 513-526.
  • Putten, W.H. van der, and C.D. van der Stoel (1998). Plant parasitic nematodes and spatio-temporal variation in natural vegetation. Applied Soil Ecology 10: 253-262.
  • Ruess, L., Michelsen, A., Schmidt, I.K., Jonasson, S. & J. Dighton (1998). Soil nematode fauna of a subarctic heath: potential nematicidal action of plant leaf extracts. Applied Soil Ecology 7: 111-124.
  • Ruf, A. (1998). A maturity index for predatory soil mites (Mesostigmata: Gamasina) as an indicator of environmental impacts of pollution on forest soils. Applied Soil Ecology 9: 447-452.
  • Rutgers, M., J. Faber, J. Postma and H. Eijsackers (1998). Locatiespecifieke ecologische risico’s: Een basisbenadering voor functiegerichte beoordeling van bodemverontreiniging. Rapporten Programma Geïntegreerd Bodemonderzoek 16. 17 p.
  • Schouten, A.J., Esbroek, M.L.P. and Alkemade, J.R.M. (1998). Dynamics and stratification of functional groups of nematodes in the organic layer of a Scots pine forest in relation to temperature and moisture. Biol. Fert. Soils 26 (4): 293-304.
  • Straalen, N.M. van (1998). Evaluation of bioindicator systems derived from soil arthropod communities. Applied Soil Ecology 9: 429-437
  • Valocká, B. and M. Sabová (1998). Seasonal variation on the soil nematode communities in regions polluted with acid and alkaline emissions. Helminthologia 35 (3): 147-153.
  • Venette, R.C. and H. Ferris (1998). Influence of bacterial type and density on population growth of bacterial-feeding nematodes. Soil Biol. Biochem. 30 (7): 949-960.
  • Wall-Freckman, D. and S. P. Huang (1998). Response of the soil community in a shortgrass steppe to long-term and short-term grazing. Applied Soil Ecology 9: 39-44
  • Wasilewska, L. (1998a). Soil invertebrates as bioindicators, with special reference to soil-inhabiting nematodes. Russian Journal of Nematology [1997] 5 (2): 113-126
  • Wasilewska, L. (1998b). Changes in the proportions of groups of bacterivorous soil nematodes with different life strategies in relation to environmental conditions. Applied Soil Ecology 9: 215-220.
  • Yeates, G.W. (1998). Feeding in free-living soil nematodes: a functional approach. In: The physiology and biochemistry of free-living and plant-parasitic nematodes (R.N. Perry and D.J. Wright, eds.). CAB, International. p. 245-269.
  • Yeates, G.W. and S. Saggar (1998). Comparison of soil microbial properties and fauna under tussock-grassland and pine plantation. Journal of the Royal Society of New Zealand 28: 523-535.
  • Yeates, G.W., T.G. Shepherd and G.S. Francis (1998). Contrasting response to cropping of populations of earthworms and predacious nematodes in four soils. Soil and Tillage Research 48: 255-264.

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1999

  • Alon, A. and Y. Steinberger (1999). Effect of nitrogen amendments on microbial biomass, above-ground biomass and nematode population in the Negev Desert soil. Journal of Arid Environments 41 (4): 429-441
  • Bongers, T. (1999). The Maturity Index, the evolution of nematode life history traits, adaptive radiation and cp-scaling. Plant and Soil 212: 13-22
  • Bongers, T. and H. Ferris (1999). Nematode community structure as a biomonitor in environmental monitoring. Trends in Ecology and Evolution 14 (6): 224-228
  • Brzeski, M.W. and M. Szczech (1999). Effect of continuous soil amendment with coniferous sawdust on nematodes and microrganisms. Nematol. Medit. 27: 159-166
  • Cabanillas, H.E., J.M. Bradford and J.R. Smart (1999). Effect of tillage system, soil type, crop stand, and crop sequence on reniform nematodes after harvest. Nematropica 29 (2): 137-146
  • Chen, J. and H. Ferris (1999). The effects of nematode grazing on nitrogen mineralization during fungal decomposition of organic matter. Soil Biology and Biochemistry 31: 1265-1279.
  • Ciobanu, M. and I. Popovici (1999). Diversity of soil nematode communities in the Suatu nature reserve. Studia Universitatis Babes-Bolyai, Biologia, XLIV, (1-2): 45-51.
  • Clausi, M. and T. Vinciguerra (1999). Changes in nematode communities of forest soil in relation to clear-cutting. Nematol. Medit. 27: 315-322.
  • Donegan, K.K., R.J. Seidler, J.D. Doyle, L.A. Porteous, G. Digiovanni, F. Widmer and L.S. Watrud (1999). A field study with genetically engineered alfalfa inoculated with recombinant Sinorhizobium meliloti: effects on the soil ecosystem. Journal Applied Ecology 36 (6): 920-936.
  • Esbroek, M.L.P. van, and A.J. Schouten (1999). Landelijk meetnet bodemkwaliteit: Nematodenfauna Deel 6: bemonstering 1996 en 1997 (melkveehouderijbedrijven op rivierklei, zeeklei en tuinbouwbedrijven) RIVM rapport 714801025, 38 p.
  • Ettema, C.H., R. Lowrance and D.C. Coleman (1999). Riparian soil response to surface nitrogen input: the indicator potential of free-living soil nematode populations. Soil Biology and Biochemistry 31: 1629-1638
  • Goralczyk, K. (1999). Nematodenfauna unterschiedlicher Ausblasungstäler in den Dünen von Houstrup Strand (DK). Faun.-Oekol. Mitt. Suppl. 26: 69-79
  • Guven, K., R.S. Power, S. Avramides, R. Allender and D.I. de Pomerai (1999). The toxicity of dithiocarbamate fungicides to soil nematodes, assessed using a stress-inducible transgenic strain of Caenorhabditis elegans. J. Biochem. Molecular Toxicology 13 (6): 324-333.
  • Gyedu-Ababio, T.K., J.P. Furstenberg, D. Blaird & A. Vanreusel (1999). Nematodes as indicators of pollution: a case study from the Swartkops River system, South Africa. Hydrobiologia 397: 155-169
  • Hánĕl, L. (1999). Nematoda. (Aquatic Invertebrates of the Palava Biosphere Reserve of UNESCO). Folia Fac.Sci. Nat. Univ. Masaryk. Brun., Biol., 101: 67-77
  • Kennedy, A.D. & C.A. Jacoby (1999). Biological indicators of marine environmental health: Meiofauna - A neglected benthic component? Environmental Monitoring and Assessment. 54 (1): 47-68.
  • Koehler, H.H. (1999). Predatory mites (Gamasina, Mesostigmata). Agriculture, Ecosystems and Environment 74: 395-410
  • Liang, W., I. Lavian and Y. Steinberger (1999). Dynamics of nematode community composition in a potato field. Pedobiologia 43: 459-469.
  • Maraun, M., J. Alphei, M. Bonkowski, R. Burijn, S. Migge, M. Peter, M. Schaeffer and S. Scheu (1999). Middens of the earthworm Lumbricus terrestris (Lumbricidae): microhabitats for micro- and mesofauna in forest soil. Pedobiologia 43 (3): 276-287.
  • McIntosh, P.D., R.S. Gibson, S. Saggar, G.W. Yeates and P. McGimpsey (1999). Effect of contrasting farm management on vegetation and biochemical, chemical, and biological condition of moist steepland soils of the South Island high country, New Zealand. Australian J. Soil Research 37 (5): 847-865.
  • Nagy, P. (1999). Effect of an artificial metal pollution on nematode assemblage of a calcareous loamy chernozem soil. Plant and Soil 212: 35-43.
  • Neher, D.A. (1999). Nematode communities in organically and conventionally managed agricultural soils. Journal of Nematology 31 (2): 142-154.
  • Neher, D.A. (1999). Soil community composition and ecosystem processes - Comparing agricultural ecosystems with natural ecosystems. Agroforestry Systems 45: 159-185.
  • Neher, D.A. and R.K. Olson (1999). Nematode communities in soils of four farm cropping management systems. Pedobiologia 43, 430-438.
  • Neher, D.A., T.R. Weicht, M. Savin, J.H. Görres and J.A. Amador (1999). Grazing in a porous environment. 2. Nematode community structure. Plant and Soil 212: 85-99.
  • Nombela, G., A. Navas & A. Bello (1999). Nematodes as bioindicators of dry pasture recovery after temporary rye cultivation. Soil Biology and Biochemistry 31 (4): 535-541
  • Peekel, A.F. and P. Doelman (1999). Nematoden, graadmeters voor bodemvervuiling. Natuur en Techniek 67 (9): 6-15
  • Pinkerton, J.N., T.A. Forge, K.L. Ivors and R.E. Ingham (1999). Plant-parasitic nematodes associated with grapevines, Vitis vinifera, in Oregon vineyards. Journal of Nematology 31 (4): 624-634.
  • Porazinska, D.L., L.W. Duncan, R.McSorley & J.H. Graham (1999). Nematode communities as indicators of status and processes of a soil ecosystem influenced by agricultural management practices. Applied Soil Ecology 13: 69-86
  • Power, R.S. and D.I. de Pomerai (1999). Effect of single and paired metal inputs in soil on a stress-inducible transgenic nematode. Arch. Environ. Contam. Toxicol. 37: 503-511.
  • Ritz, K. and D.L. Trudgill (1999). Utility of nematode community analysis as an integrated measure of the functional state of soils: perspectives and challenges. Plant and Soil 212: 1-11.
  • Ruess, L., A. Michelsen and S. Jonasson (1999). Simulated climate change in subarctic soils: responses in nematode species composition and dominance structure. Nematology 1 (5): 513-526.
  • Ruess, L., A. Michelsen, I.K. Schmidt and S. Jonasson (1999). Simulated climate change affecting microrganisms, nematode density and biodiversity in subarctic soils. Plant and Soil 212: 63-73
  • Savkina, E., T. Djalankuzov and Y. Steinberger (1999). The effect of organic fertilizer on the nematode community in chernozem soil in North Kazakhstan. Pedobiologia 43 (3): 255-265
  • Sohlenius, B and S. Boström (1999). Effects of climate change on soil factors and metazoan microfauna (nematodes, tardigrades and rotifers) in a Swedish tundra soil - a soil transplantation experiment. Applied Soil Ecology 12: 113-128
  • Sohlenius, B and Boström, S. (1999). Effects of global warming on nematode diversity in a Swedish tundra soil - a soil transplantation experiment. Nematology 1 (7-8): 695-709
  • Sonnemann, I., H. Dogan, A. Klein, B. Pieper, K. Ekschmitt and V. Wolters (1999). Response of soil microflora to changes in nematode abundance - evidence for large scale effects in grassland soil. J. Plant Nutr. Soil Sci. 162: 385-3913
  • Valocká, B. M. Sabová and P. Dubinsky (1999). Effect of anaerobically digested pig slurry on the structure of soil and plant nematode communities. Ekologia-Bratislava 18 (2): 134-142.
  • Wall, D.H. and R.A. Virginia (1999). Controls on soil biodiversity: insights from extreme environments. Applied Soil Ecology 13: 137-150.
  • Wasilewska, L (1999). Soil nematode response to root production in grasslands on fen peat soils. Pol. J. Ecol. 47 (3): 231-246.
  • Wasilewska, L (1999). Application of soil nematode ecology to assessment of environmental perturbation and degradation (in Polish with English summary). Parki Narodowe i Rezerwaty Przyrody 18 (1): 19-27
  • Weber, G. (1999). Einfluss der Standortfaktoren, Bodennutzung und Bodenbearbeitung auf die Struktur von Nematodengemeinschaften in rekultivierten Böden. Diplomarbeit. Univ. Trier. FB VI, Abt. Bodenkunde. 105 p.
  • Yeates, G.W. (1999). Effects of plants on nematode community structure. Annu. Rev. Phytopathol. 37: 127-149
  • Yeates, G.W. and T. Bongers (1999). Nematode diversity in agroecosystems. Agric. Ecosyst. & Environm. 74 (1-3): 113-135
  • Yeates, G.W., D.A. Wardle and R.N. Watson (1999). Responses of soil nematode populations, community structure, diversity and temporal variability to agricultural intensification over a seven-year period. Soil Biology and Biochemistry 31: 1721-1733
  • Yeow, H-S, J.R. Finney-Crawley, J. Lawlor and I.W. King. (1999). Free-living nematode assemblages downstream from a pulp and paper mill in Humber Arm, Newfoundland. Russian Journal of Nematology 7 (2): 95-103.

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2000

  • Bakonyi, G and P. Nagy (2000). Temperature and moisture-induced changes in the structure of the nematode fauna of a semiarid grassland - patterns and mechanisms. Global Change Biology 6 (6): 697-707.
  • Bazzanti, M. (2000). Macrobenthic nematodes as biological indicators in a Mediterranean lowland river in Central Italy: a case study. Archiv für Hydrobiologie 148: 59-70
  • Besten, P.J. den, J.F. Postma, J.W.M. Wegener, H. Keidel, A. Klink, J. Mol and C. van der Guchte (2000). Biological and chemical monitoring after pilot remediations in the delta of the rivers Rhine and Meuse. Aquatic Ecosystem Health and Management 3: 317-334
  • Blomqvist, M.M., H. Olff, M.B.Blaauw, T. Bongers and W.H. van der Putten (2000). Interactions between above- and belowground biota: importance for small-scale vegetation mosaics in a grassland ecosystem. Oikos 90, 584-600
  • Bruggen, A.H.C. van, and A.M. Semenov (2000). In search of biological indicators for soil health and disease suppression. Applied Soil Ecology 15: 13-24
  • Dmovska, E. (2000). Nematode communities in subalpine meadows in central Pyrenees. Annales Zoologici 50 (2): 211-220
  • Ekschmitt, K. & T. Bongers (2000). Biologische Bodenbewertung mit Nematoden.VDLUFA-Schriftenreihe (Kongressband) 55 (2): 57-76
  • Forge, T.A. and S.W. Simard (2000). Trophic structure of nematode communities, microbial biomass, and nitrogen mineralization in soils of forests and clearcuts in the southern interior of British Columbia. Can.J. Soil. Sci. 80 (3): 401-410
  • Fu, S., D.C. Coleman, P.F. Hendrix and D.A.Crossley (2000). Responses of trophic groups of soil nematodes to residue application under conventional tillage and no-tillage regimes. Soil Biology & Biochemistry 32: 1731-1741
  • Goede, R.G.M. de, and T. Bongers (2000). The nematode Maturity Index. In (Wheeler, T., T. Forge, E. Caswell-Chen and J.A. LaMondia eds.): Techniques in Nematode ecology. http://ianr-www.unl.edu/son/ Ecology_Manual_TOC.htm.
  • Grünwald, N.J., S. Hu and A.H.C. van Bruggen (2000). Short-term cover crop decomposition in organic and conventional soils: Soil microbial and nutrient cycling indicator variables associated with different levels of soil suppressiveness to Pythium aphanidermatum. European Journal of Plant Pathology 106: 51-65.
  • Gruzdeva, L.I. (2000). The state of soil nematode communities upon reclamation of cutover peatlands. Eurasian Soil Science 33 (4): 417-425.
  • Hoeksema, J.D., J. Lussenhop and J.A. Teeri (2000). Soil nematodes indicate food web responses to elevated atmospheric CO2. Pedobiologia 44: 725-735
  • Hunt, D. (2000). Biodiversity of Nematodes as Indicators of Soil Health. In: Cacao and Neighbour Trees in Ecuador (Eds.: E. Boa, J. Bentley and J. Stonehouse). CABI Bioscience, UK Centre. Annex 6: Nematode Biodiversity: 40-45
  • Ivezic, M., E. Raspudic and M. Brmez (2000). Structure of nematode communities in different agroecosystems in Croatia. Helminthologia 37 (3): 165-169.
  • Kaneko, N. (2000). Ecological risk assessment of soil pollution using soil animals. Development of the toxicity scaling method for evaluation of specific risk in mixed contaminated soils. Proc. 3rd Internat. workshop on risk evaluation and management of chemicals. 27-28 Jan. 2000, Yokohama Nat. Univ., Japan: 215-226
  • Lenz, R. and G. Eisenbeis (2000). Short-term effects of different tillage in a sustainable farming system on nematode community structure. Biol. Fert. Soils 31: 237-244
  • Liang, W.J., Y. Pinhasi-Adiv, H. Shtultz and Y. Steinberger (2000). Nematode population dynamics under the canopy of desert halophytes. Arid Soil Research and Rehabilitation 14 (2): 183-192
  • Lokupitiya, E., N.L. Stanton, R.S. Seville and J.R. Snider (2000). Effects of increased nitrogen deposition on soil nematodes in alpine tundra soils. Pedobiologia 44: 591-608.
  • McSorley, R. and J.J. Frederick (2000). Short-term effects of cattle grazing on Nematode communities in Florida pastures. Nematropica 30 (2): 211-221.
  • Panesar, T.S., V.G.Marshall and H.J. Barclay (2000). The impact of clearcutting and partial harvesting systems on population dynamics of soil nematodes in coastal Douglas-fir forests. Pedobiologia 44: 641-665
  • Pate, E., N. Ndiaye-Faye, J. Thioulouse, C. Villenave, T. Bongers, P. Cadet and D. Debouzie (2000). Successional trends in the characteristics of soil nematode communities in cropped and fallow lands in Senegal (Sonkorong). Applied Soil Ecology 14: 5-15.
  • Popovici, I and M. Ciobanu (2000). Diversity and distribution of nematode communities in grasslands from Romania in relation to vegetation and soil characteristics. Applied Soil Ecology 14: 27-36.
  • Römbke, J., and P. Dreher (2000). Bodenbiologische Bodengüte-Klassen. Forschungsbericht Umweltbundesamt: 297 74 006/01-02 UBA-FB 000033. (ISSN 0722-186X). 276 p.
  • Rusek, J. and V.G. Marshall (2000). Impacts of airborne pollutants on soil fauna. Ann. Rev. Ecol. Syst. 31: 395-423.
  • Rutgers, M., J.H. Faber, J.F. Postma and H. Eijsackers (2000). Site-specific ecological risks: A basic approach to the function-specific assessment of soil pollution. The Netherlands Integrated Soil Research Programme 28: 18 p.
  • Rutgers, M. J.F. Postma and J.H. Faber (2000). Uitwerking van de basisbenadering voor de locatiespecifieke, functiegerichte, ecologische risicobeoordeling van bodemverontreiniging voor de praktijk. Rapp. Progr. Geintegr. Bodemonderzoek 29: 85 p.
  • Schouten, A.J., J. Bloem, A.M. Breure, W.A.M. Didden, M. van Esbroek, P.C. de Ruiter, M. Rutgers, H. Siepel and H. Velvis (2000). Pilotproject bodembiologische indicator voor life support functies van de bodem. RIVM rapport 607604001. 106 p.
  • Trett, M.W., B.C. Urbano, S.J. Forster, HJ.D. Hutchinson, R.L. Feil, S.P. Trett and J.G. Best (2000). Terrestrial meiofauna and contaminated land assessment. Environmental Science and Technology 43 (8): 1594-1602.
  • Urzelai, A., A.J. Hernandez and J. Pastor (2000). Biotic indices based on soil nematode communities for assessing soil quality in terrestrial ecosystems. The Science of the Total Environment 247: 253-261
  • Urzelai, A., M. Vega and E. Angulo (2000). Deriving ecological risk-based soil quality values in the Basque Country. The Science of the Total Environment 247: 279-284
  • Valocká, B., P. Dubinsky, I. Papajova and M. Sabová (2000). Effect of anaerobically digested pig slurry from lagoon on soil and plant nematode communities in experimental conditions. Helminthologia 37: 53-57..
  • Verschoor, B.C. and R.G.M. de Goede (2000). The nematode extraction efficiency of the Oostenbrink elutriator-cottonwool filter method with special reference to nematode body size and life strategy. Nematology 2 (3): 325-342.
  • Warrelmann, J., Koehler, H., T. Frische, I. Dobner, U. Walter, W. Heyser (2000). Erprobung und Erfolgskontrolle eines Phytoremediationsverfahrens zur Sanierung sprengstoff-kontaminierter Böden: Teil I: Konzeption und einrichtung eines Freilandexperimentes. Umweltwissenschaften und Schadstoff-Forschung 12 (6): 351-357.
  • Wasilewska L. (2000). The effect of macroarthropods searching soil surface on soil nematodes: a field experiment in a mown meadow. Pol. J. Ecol. 48 (4): 327-338.
  • Yeates, G.W., M.F. Hawke and W.C. Rijkse (2000). Changes in soil fauna and soil conditions under Pinus radiata agroforestry regimes during a 25-year tree rotation. Biol. Fertil. Soils 31: 391-406

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2001

  • Abebe, E., J. Mees and A. Coomans (2001). Nematode communities of Lake Tana and other inland water bodies of Ethiopia. Hydrobiologia 462: 41-73.
  • Andrews, S.S. & C.R. Caroll (2001). Designing soil quality assessment tool for sustainable agroecosystem management. Ecological Applications 11 (6): 1573-1585.
  • Bamforth S.S. (2001). Proportions of active ciliate taxa in soils. Biology and Fertility of Soils 33 (3): 197-203
  • Beier, S. and W. Traunspurger (2001). The meiofauna community of two small German streams as indicator of pollution. Journal of Aquatic Ecosystem Stress and Recovery 8: 387-405
  • Boag, B. and D.J. Hunt (2001. Nematodes. In: The Changing Wildlife of Great Britain and Ireland. (Ed. D.L. Hawsworth) Taylor and Francis, London and New York. p. 210-229
  • Bongers, T., K. Ilieva-Makulec and K. Ekschmitt (2001). Acute sensitivity of nematode taxa to CuSO4 and relationships with feeding-type and life history classification. Environmental Toxicology and Chemistry 20 (7): 1511-1516
  • Brimecombe, M.J. , F.A.A.M. de Leij and J.M. Lynch (2001). Nematode community structure as a sensitive indicator of microbial perturbations induced by a genetically modified Pseudomonas flurorescens strain. Biology and Fertility of Soils 34 (4): 270-275.
  • Dmowska, E. (2001). Nematodes colonizing power plant ash dumps. 1. Soil nematodes in ash dumps non-reclaimed and reclaimed by adding mineral soil and sowing grass. Polish Journal of Ecology 49 (3): 231-241.
  • Ekschmitt, K., G. Bakonyi, M. Bongers, T. Bongers, S. Boström, H. Dogan, A. Harrison, P. Nagy, A.G. O’Donnell, E.M. Papatheodorou, B. Sohlenius, G. Stamou & V. Wolters (2001). Nematode community structure as indicator of soil functioning in European grassland soils. European Journal of Soil Biology 37: 263-268.
  • Ferris, H., T. Bongers and R.G.M. de Goede (2001). A framework for soil food web diagnostics: extension of the nematode faunal analysis concept. Applied Soil Ecology 18 (1): 13-29.
  • Forge, T.A., & S.W. Simard. (2001). Structure of nematode communities in forest soils of southern Britisch Columbia: relationships to nitrogen mineralization and effects of clearcut harvesting and fertilization. Biology and Fertility of Soils 34 (3): 170-178.
  • Frederiksen, H.B., H.O. Kraglund and F. Ekelund (2001). Microfaunal primary succession on the volcanic island of Surtsey, Iceland. Polar Research 20 (1): 61-73.
  • Hánĕl, L. (2001). Succession of soil nematodes in pine forests on coal-mining sands near Cottbus, Germany. Applied Soil Ecology 16: 23-34
  • Ikonen, E.K. (2001). Population growth of two aphelenchid nematodes with six different fungi as a food source. Nematology 3 (1): 9-15
  • Ilieva-Makulec, K. (2001). A comparative study of the life strategies of two bacterial-feeding nematodes under laboratory conditions. I. Influence of culture conditions on selected life-history parameters of Acrobeloides nanus (De Man 1880) Anderson 1968 and Dolichorhabditis dolichura (Schneider 1866) Andrassy 1983. Polish Journal of Ecology 49 (1): 29-43.
  • Koehler, H., T. Frische, I. Dobner, P. Behrend, M. Schaefer, H. Jastorff, J. Warrelmann und U. Walter (2001). Erprobung und Erfolgskontrolle eines Phytoremediationsverfahrens zur Sanierung Sprengstoff-kontaminierter Boeden. UWSF - Z. Umweltchem. Ökotox. 13 (5): 291-300
  • Koehler, H., J. Warrelmann, P. Behrend, I. Dobner, T. Frische, W. Heyser, B. Jastorff & U. Walter (2001).Erprobung und Erfolskontrolle eines Phytoremediationsverfahrens zur Sanierung sprengstoff-kontaminierter Böden. Teil III: Beurteilung des Verfahrens. Umweltwissenschaften und Schadstoff-Forschung 13 (6): 359-368
  • Korthals, G.W., P. Smilauer, C. van Dijk and W.H. van der Putten (2001). Linking above- and below-ground biodiversity: abundance and trophic complexity in soil as a response to experimental plant communities on abandoned arable land. Functional Ecology 15: (4) 506-514.
  • Lee, H.J., D. Gerdes, S. Vanhove & M. Vincx (2001). Meiofauna response to iceberg disturbance on the Antarctic continental shelf at Kapp Norvegia (Weddell Sea). Polar Biology 24 (12): 926-933.
  • Lee, H.J., S. Vanhove, L.S. Peck & M. Vincx (2001). Recolonisation of meiofauna after catastrophic iceberg scouring in shallow Antarctic sediments. Polar Biology 24 (12): 918-925
  • Liang, W. and Y. Steinberger (2001). Temporal changes in nematode community structure in a desert ecosystem. J. Arid. Environ. 48 (3): 267-280.
  • Manacini, B. & Lozzia, C. (2001). Nematode diversity in vineyard soil under different agricultural management regimes. Bulletin OILB SROP 24 (7): 253-261
  • Matlack, G.R. (2001). Factors determining the distribution of soil nematodes in a commercial forest landscape. Forest Ecology and Management 146: 129-143
  • Mouratov, S., I. Lahav, G. Barness and Y. Steinberger (2001). Preliminary study of the soil nematode community at Machu Picchu Station, King George Island, Antarctica. Polar Biology 24 (7): 545-548.
  • Panesar, T.S., V.G. Marshall and H.J. Barclay (2001). Abundance and diversity of soil nematodes in chronosequences of coastal Douglas-fir forests on Vancouver Island, British Columbia. Pedobiologia 45: 193-212.
  • Ruess, L., I.K. Schmidt, A. Michelsen and S. Jonasson (2001). Manipulations of a microbial based soil food web at two arctic sites - evidence of species redundancy among the nematode fauna? Applied Soil Ecology 17: 19-30.
  • Sarathchandra, S.U., A. Ghani, G.W. Yeates, G. Barch and N.R. Cox (2001). Effect of nitrogen and phosphate fertilisers on microbial and nematode diversity in pasture soils. Soil Biology & Biochemistry 33: 953-964.
  • Steinberger, Y., W Liang, E. Savkina, T. Meshi and G. Barness. (2001). Nematode community composition and diversity associated with a topoclimatic transect in a rain shadow desert. European Journal of Soil Biology 37: 315-320.
  • Swift, M. and D. Bignell (2001). Standard methods for assessment of soil biodiversity and land use practice. Intern. Centre for Research in Agroforestry, Southeast Asian Research Programme, Bogor Indonesia.  Lecture note 6B. (www.icraf.cgiar.org/sea). 35 p.
  • Valocká, B., M. Sabová and M. Renco (2001). Soil and plant nematode communities of two types of ecosystems. Helminthologia 38 (2): 105-109
  • Villenave, C., T. Bongers, K. Ekschmitt, D. Djigal and J.L. Chotte (2001). Changes in nematode communities following cultivation of soils after fallow periods of different length. Applied Soil Ecology 17 (1): 43-52. 

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2002


  • Andrews, S.S., D.L. Karlen and J.P. Mitchell (2002). A comparison of soil quality indexing methods for vegetable production systems in Northern California. Agriculture, Ecosystems and Environment 90: 25-42
  • Bardgett, R.D. (2002). Causes and consequences of biological diversity in soil. Zoology 105: 367-374
  • Bjørnlund, L., M. Vestergård, S. Johansson, M. Nyborg, L. Steffensen and S. Christensen (2002). Nematode communities of natural and managed beech forests - a pilot survey. Pedobiologia 46: 53-62
  • Blakely, J.K., D.A. Neher, and A.L. Spongberg (2002). Soil invertebrate and microbial communities, and decomposition as indicators of polycyclic aromatic hydrocarbon contamination. Applied Soil Ecology 21: 71-88
  • Bulluck, L.R., K.R. Barker and J.B. Ristaino (2002). Influences of organic and synthetic soil fertility amendments on nematode trophic groups and community dynamics under tomatoes. Applied Soil Ecology 21: 233-250
  • Claus, E., T. Tippman & P. Heiniger (2002). Anwendung differenzierter Untersuchungsmethoden zur Sedimenbewertung. Umweltwissenschaften und Schadstoff-Forschung 14 (1): 3-7.
  • Duft, M., K. Fittkau and W. Traunspurger (2002). Colonization of exclosures in a Costa Rican stream: effects of macrobenthos on meiobenthos and the nematode community. Journal of Freshwater Ecology 17 (4): 531-541.
  • Duponnois, R., H. Founoune and D. Lesueur (2002). Influence of the controlled dual ectomycorrhizal and rhiozobial symbiosis on the growth of Acacia mangium provenances, the indigenous symbiotic microflora and the structure of plant parasitic nematode communities. Geoderma 109: 85-102
  • Fiscus, D. and D.A. Neher (2002). Distinguishing sensitivity of free-living soil nematode genera to physical and chemical disturbances. Ecological Applications 12 (2): 565-575
  • Forge, T.A., E. Hogue, G. Neilson and D. Neilsen (2002). Effects of organic mulches on soil microfauna in the root zone of apple: implications for nutrient fluxes and functional diversity of the soil food web. Applied Soil Ecology 22: 39-54
  • Georgieva, S.S., S.P. McGrath, D.J. Hooper and B.S. Chambers (2002). Nematode communities under stress: the long-term effects of heavy metals in soil treated with sewage sludge. Applied Soil Ecology 20: 27-42
  • Goralczyk, K. (2002). Küstendünen als Lebensraum für Nematoden. Diss. Univ. Bremen. Herdecke; GCA-Verlag. ISBN 3-89863-095-1. 161 p.
  • Griffiths, B.S., A.G. Bengough, R. Neilson and D.L. Trudgill (2002). The extent to which nematode communities are affected by soil factors - a pot experiment. Nematology 4 (8): 943-952.
  • Hánĕl, L. (2002). Development of soil nematode communities on coal-mining dumps in two different landscapes and reclamation practices. European Journal of Soil Biology 38: 167-171
  • Hooper, D.U., M. Solan, A. Symstad, S. Diaz, M.O. Gessner, N. Buchmann, V. Degrange, P. Grime, F. Hulot, F. Mermillod-Blondin, J. Roy, E. Spehn and L. van Peer (2002). Species diversity, functional diversity, and ecosystem functioning. In: Biodiversity and ecosystem functioning, synthesis and perspectives (Eds.: M. Loreau, S. Naeem & P. Inchausti). Oxford University Press. p. 195-281.
  • Imaz, A., M.A. Hernandez, A.H. Arino, I. Armendariz and R. Jordana (2002). Diversity of soil nematodes across a Mediterranean ecotone. Applied Soil Ecology 20: 191-198
  • Koehler, H., J. Warrelmann, T. Frische, P. Behrend and U. Walter (2002). In-situ phytoremediation of TNT-contaminated soil. Acta Biotechnol. 22 (1-2): 67-80
  • Liang, W., L. Cen, Q. LI, P. Wang & Y. Duan, Y. (2002). Responses of nematode communities to inorganic fertilizer disturbance in a farmland ecosystem. Pedosphere 12 (3): 193-200
  • Liang, W., S. Mouratov, Y. Pinhasi-Adiv, P. Avigad and Y. Steinberger (2002). Seasonal variation in the nematode communities associated with two halophytes in a desert ecosystem. Pedobiologia 46: 63-74
  • Liébanas, G., R. Peña-Santiago, R. Real & A.L. Márquez (2002). Spatial distribution of dorylaimid and mononchid nematodes from southeast Iberian Peninsula: Chorological relationships among species. Journal of Nematology 34 (4): 390-395
  • Manachini, B. and Lozzia, G.C. (2002). First investigations into the effects of Bt corn crop on nematofauna. Boll. Zool. Agr. Bachi. 34 (1): 85-96
  • McSorley, R. and J.J. Frederick (2002). Effect of subsurface clay on nematode communities in a sandy soil. Applied Soil Ecology 19: 1-11
  • Mirto, S., T. La Rosa, C. Gambi, R. Danovaro and A. Mazzola (2002). Nematode community response to fish-farm impact in the western Mediteranean. Environmental Pollution 116: 203-214
  • Murialdo, S.E., M.G. Fuertes, J.F. Gonzalez and E. Chavez (2002). Nematodes as indicators of wetland pollution. Journal of Environmental Biology 23 (4): 423-428
  • Neilson, R. and B. Boag (2002). Marine nematode associations from an intertidal estuarine biotope. Russian Journal of Nematology 10 (2): 113-121
  • Okada, H., T. Tsukiboshi and I. Kadota (2002). Mycetophagy in Filenchus misellus (Andrassy, 1958) Lownsbery & Lownsbery, 1985 (Nematoda: Tylenchidae), with notes on its morphology. Nematology 4 (7): 795-801
  • Porazinska, D.L., D.H. Wall & R.A. Virginia (2002).Population age structure of nematodes in the Antarctic dry valleys: Perspectives on time, space, and habitat suitability. Arctic, Antarctic, and Alpine Research 34 (2): 159-168.
  • Rebek, E.J., D.B. Hogg and D.K. Young (2002). Effect of four cropping systems on the abundance and diversity of epedaphic springtails (Hexapoda: Parainsecta: Collembola) in Southern Wisconsin. Community and Ecosystem Ecology 31:37-46
  • Renčo, M. and Valocká, B. (2002). Communities of soil and plant nematodes in sugar beet growing areas of Slovakia. Biologia 57 (5): 573-577
  • Ruess, L., I.K. Schmidt, A. Michelsen and S. Jonasson (2002). Responses of nematode species composition to factorial addition of carbon, fertiliser, bactericide and fungicide at two sub-arctic sites. Nematology 4 (4): 527-539
  • Smit, C.E., A.J. Schouten, P.J. van den Brink, M.L.P. van Esbroek and L. Posthuma (2002). Effects of zinc contamination on a natural community outdoor soil microcosmos. Archives Environmental Contamination and Toxicology. 42: 205-216
  • Sohlenius, B. (2002). Influence of clear-cutting and forest age on the nematode fauna in a Swedish pine forest soil. Applied Soil Ecology 19: 261-277
  • Somasekhar, N., P.S. Grewal, E.A.B. de Nardo and B.R. Stinner (2002). Non-target effects of entomopathogenic nematodes on the soil nematode community. Journal of Applied Ecology 39 (5): 735-744
  • Talavera, M., and A. Navas (2002). Incidence of plant-parasitic nematodes in natural and semi-natural mountain grassland and the host status of some common grass species. Nematology 4 (4): 541-552.
  • Thornton, C.W. & R. Matlack (2002). Long-term disturbance effects in the nematode communities of South Mississippi woodlands. Journal of Nematology 34 (2): 88-97
  • Wall, J.W., K.R. Sklene and R. Neilson (2002): Nematode community and trophic structure along a sand dune succession. Biology and Fertility of Soils 35: 293-301
  • Wasilewska, L. (2002). Post-drainage secondary succession of soil nematodes on fen peat meadows in Biebrza wetlands, Poland. Polish Journal of Ecology 50 (3): 269-300
  • Wenju, L., L. Chen, Q. Li, P. Wang and Y. Duan (2002). Response of nematode communities to inorganic fertilizer disturbance in a farmland ecosystem. Pedosphere 12 (3): 193-200.
  • Wu, J., C. Fu, S. Chen and J. Chen (2002). Soil faunal response to land use: effect of estuarine tideland reclamation on nematode communities. Applied Soil Ecology 21: 131-147
  • Yeates, G.W., J.L. Dando and T.G. Shepherd (2002). Pressure plate studies to determine how moisture affects access of bacterial-feeding nematodes to food in soil. European Journal of Soil Science 53: 355-365
  • Zolda, P. (2002). Untersuchungen zur Nematodenfauna der Trockenrasen im Nationalpark Neusiedler See-Seewinkel. Verhandlungen der Zoologisch Botanischen Gesellschaft in Österreich 139: 53-58

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2003

  • Bakonyi, G., P. Nagy & I. Kádár (2003). Long-term effects of heavy metals and microelements on nematode assemblage. Toxicology Letters 140-141: 391-401.
  • Beier, S. (2003). Bestandsaufnahme freilebender Nematoden in kleinen Fliessgewässern und deren Bedeutung im benthischen Nahrungsnetz. Thesis, Universität Bielefeld. 259 p.
  • Beier, S. & W. Traunspurger (2003). Seasonal distribution of free-living nematodes in the Kraehenbach, a fine-grained submountain carbonate stream in southwest Germany. Nematology 5 (1): 113-136.
  • Berkelmans, R., H. Ferris, M. Tenuta and A.H.C. van Bruggen (2003). Effects of long-term crop management on nematode trophic levels other than plant feeders disappear after 1 year of disruptive soil management. Applied Soil Ecology 23: 223-235.
  • Blaxter, M.L. (2003). Nematoda: Genes, genomes and the evolution of parasitism. Advances in Parasitology 54: 101-195
  • Boyd, W.A. and P.L. Williams (2003). Comparison of the sensitivity of three nematode species to copper and their utility in aquatic and soil toxicity tests. Environmental Toxicology and Chemistry 22 (11): 2768-2774.
  • Bronswijk, J.J.B., M.S.M. Groot, P.M.J. Fest and T.C. van Leeuwen (2003). Landelijk meetnet bodemkwaliteit. Resultaten eerste meetronde, 1993-1997. RIVM rapport 714801031, 149 p.
  • Büchs, W. (2003). Biodiversity and agro-environmental indicators – general scopes and skills with special reference to the habitat level. Agriculture, Ecosystems and Environment 98: 35-78
  • Cadet, P., E. Pate and J. Thioulouse (2003). Relationship of nematode communities to human demographics and environment in agricultural fields and fallow lands in Senegal. Journal of Tropical Ecology 19:279-290
  • Chen, L., Q. Li and W. Liang (2003). Effect of agrochemicals on nematode community structure in a soybean field. Bull. Environ. Contam. Toxicol. 71: 755-760.
  • Dawson, L.A., S.J. Grayston, P.J. Murray, R. Cook, A.C. Gange, J.M. Ross, S.M. Pratt, E.J. Duff and A. Treonis (2003). Influence of pasture management (nitrogen and lime addition and insecticide treatment) on soil organisms and pasture root system dynamics in the field. Plant and Soil 255: 121-130.
  • Djigal, D (2003). Interactions entre la communauté microbienne du sol (bactéries et champignons) et les nématodes bactérivores: effets sur la nutrition minérale et la croissance de différentes plantes. These, Université Cheikh Anta Diop de Dakar. 131 pp
  • Duncan, K., E. Jennings, P. Buck and H. Wells (2003). Multi-species Ecotoxicity assessment of petroleum-contaminated soil. Soil and Sediment Contamination 12 (2): 181-206.
  • Esquivel, A. (2003). Nematode fauna of Costa Rican protected areas. Nematropica 33 (2): 131-145
  • Essink, K. (2003). Response of an estuarine ecosystem to reduced organic waste discharge, Aquatic Ecology 37 (1): 65-76.
  • Ferris, H. & M.M. Matute (2003). Structural and functional succession in the nematode fauna of a soil food web. Applied Soil Ecology 23: 93-110.
  • Forge, T.A., E. Hogue, G. Neilsen & D. Neilsen (2003). Effects of organic mulches on soil microfauna in the root zone of apple: implications for nutrient fluxes and functional diversity of the soil food web. Applied Soil Ecology 22: 39-54.
  • Gambi, C., A. Vanreusel and R. Danovaro (2003): Biodiversity of nematode assemblages from deep-sea sediments of the Atacama Slope and Trench (South Pacific Ocean). Deep-Sea Research (I) (50): 103-117.
  • Goede, R.G.M. de, L. Brussaard and A.D.L. Akkermans (2003). On-farm impact of cattle slurry manure manmagement on biological soil quality. Netherlands Journal of Agricultural Science 51 (1-2): 103-133.
  • Goulart, A.M.C., & Ferraz, L.C.C.B. (2003). Study of nematode communities in native and cultivated vegetation. I. Trophic diversity. Nematologia Brasileira 27 (2): 123-128.
  • Gruzdeva, L.I., E.M. Matveeva and T.E. Kovalenko (2003): The effect of heavy metal salts on soil-inhabiting nematode communities. Eurasian Soil Science 36 (5): 536-545.
  • Hánĕl, L. (2003). Soil nematodes in cambisol agroecosystems of the Czech Republic. Biologia 58 (2): 205-216.
  • Hánĕl, L. (2003). Recovery of soil nematode populations from cropping stress by natural secondary succession to meadow land. Applied Soil Ecology 23: 255-270.
  • Hánĕl, L. (2003). Comparison of soil nematode communities in three forest types on sand and clay coal-mining dumps in Germany and Czech Republic. Helminthologia 40 (4): 237-243.
  • Hohberg, K. (2003). Soil nematode fauna of afforested mine sites: genera, distribution, trophic structure and functional guilds. Applied Soil Ecology 22: 113-126.
  • Hoss, S. and W. Traunspurger (2003). Nematodes. Bioindicators and Biomonitors, Principles, Concepts and Applications 6: 529-554.
  • Jaser, W. (2003). Effekte von 17α-Ethinylestradiol und Trenbolon auf das Zooplankton aquatischer Modelökosysteme. Thesis, Techn. Univ. München, 185 p.
  • Kajak, A. (2003). Fauna gleby a procesy mineralizacji i akumulacji materii organicznej. Kosmos 52 (2-3): 341-355.
  • Macchia, E.T., R. McSorley, L.W. Duncan and J.S. Syvertsen (2003). Effects of perennial peanut (Arachis glabrata) ground cover on nematode communities in citrus. J. Nematol 35 (4): 450-457
  • Mulder, Ch., D. de Zwart, H.J. van Wijnen, A.J. Schouten and A.M. Breure (2003). Observational and simulated evidence of ecological shifts within the soil nematode community of agroecosystems under conventional and organic farming. Functional Ecology 17: 516-525.
  • Okada, H., and I. Kadota (2003). Host status of 10 fungal isolates for two nematode species, Filenchus misellus and Aphelenchus avenae. Soil Biology & Biochemistry 35: 1601-1607.
  • Panesar, T.S., and V.G. Marshall (2003). Monograph of soil nematodes from coastal douglas-fir forests in British Columbia. Royal Roads University, Canada (ISBN 0-7726-4958-8). 177 pp.
  • Parisi, V., C. Menta, C. Gardi and C. Jacomini (2003). Evaluation of soil quality and biodiversity in Italy: the biological quality of soil index (QBS) Approach. Proc. "OECD Expert Meeting on Soil Erosion and Soil Biodiversity Indicators", 25-28 March, Rome, Italy. 12 p.
  • Pen-Mouratov, S., M. Rakhimbaev and Y. Steinberger (2003): Seasonal and spatial variation in nematode communities in a Negev Desert ecosystem. Journal of Nematology 35 (2): 157-166
  • Peterson, K., L. Huber, G. Eisenbeis, M. Porten & E.H. Ruhl (2003). Nematode communities in soils of three different vineyards infested with Daktulosphaira vitifoliae. Acta Horticulturae 617: 135-139.
  • Ponge, J.F., S. Gillet, F. Dubs, E. Fedoroff, L. Haese, J.P. Sousa and P. Lavelle (2003). Collembolan communities as bioindicators of land use identification. Soil Biology & Biochemistry 35: 813-826
  • Räty, M. and V. Huhta (2003). Earthworms and pH affect communities of nematodes and enchytraeids in forest soil. Biol. Fertil. Soils 38: 52-58
  • Räty, M. and V. Huhta (2003). Nematode communities of anthropogenous birch stands in central Finland. Nematology 5 (4): 629-639.
  • Renco, M. (2003). The communities of nematodes in agroecosystems of sugar beet, cereals and lucerne in Eastern Slovakia. Helminthologia 40 (1): 55-58
  • Ruess, L. (2003): Nematode faunal analysis of decomposition pathways in different ecosystems. Nematology 5 (2): 179-181.
  • Ruf, A., L. Beck, P. Dreher, K. Hund-Rinke, J. Römbke and J. Spelda (2003). A biological classification concept for the assessment of soil quality: “biological soil classification scheme” (BBSK). Agriculture, Ecosystems and Environment 98: 263-271.
  • Sonneman, I. (2003). Interaktionen zwischen Pflanzen und Bodenlebewelt, Planzengesundheit und Ökosystemfunktionen. Thesis, Universität Giessen, Dl. Oct. 2003, 77 p.
  • Villenave, C., T. Bongers, K. Ekschmitt, P. Fernandes and R. Oliver (2003). Changes in nematode communities after manuring in millet fields in Senegal. Nematology 5 (3): 351-358.
  • Villenave, C., P. Cadet, O. Planchon, M. Esteve & J.M. Lapetite (2003). Transport of free-living nematodes by runoff water in a Sudano-Sahelian area. Applied Soil Ecology 23: 85-91
  • Wardle, D.A., G.W. Yeates, W. Williamson and K.I. Bonner (2003). The response of a three trophic level soil food web to the identity and diversity of plant species and functional groups. Oikos 102: 45-56
  • Wasilewska, L. (2003). Wplyw uproszczenia zbiorowisk roslinnosci lakowej na biologie gleby I procesy rozkladu materii. Bioindykacyjna rola fauny glebowej. [Influence of simplification of meadows plant agglomerations on soil biology and decomposition processes. Bioindicative role of soil fauna]. Kosmos 52 (2-3): 357-364.
  • Yeates, G.W. (2003). Nematodes as soil indicators: functional and biodiversity aspects. Biol. Fertil. Soils 37: 199-210
  • Yeates, G.W., P.C.D. Newton and D.J. Ross (2003). Significant changes in soil microfauna in grazed pasture under elevated carbon dioxide. Biology and Fertility of Soils 38 (5): 319-326.
  • Yeates, G.W., H.J. Percival and A. Parshotam (2003). Soil nematode responses to year-to-year variation of low levels of heavy metals. Australian Journal of Soil Research 41: 613-625 

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2004


  • Andrews, S.S., D.L. Karlen & C.A. Cambardella (2004). The soil management assessment framework; A quantitative soil quality evaluation method. Soil Science Society of America Journal 68 (6): 1945-1962.
  • Brown, I.M., D.A. Wharton & R.B. Millar (2004). The influence of temperature on the life history of the Antarctic nematode Panagrolaimus davidi. Nematology 6 (6): 883-890.
  • Brussaard, L., T.W. Kuyper, W.A.M. Didden, R.G.M. de Goede and J. Bloem (2004). Biological soil quality from biomass to biodiversity - Importance and resilience to management stress and disturbance. In: Managing soil quality: challenges in modern agriculture (eds: P. Schjønning, S. Elmholt and B.T. Christensen). CAB International: 139-161.
  • Bus de Warnaffe, G. du, & P. Lebrun (2004). Effects of forest management on carabid beetles in Belgium: implications for biodiversity conservation. Biological Conservation 118: 219-234.
  • Coleman, D.C. , D.A. Crossley & P.F. Hendrix (2004). Fundamentals of soil ecology. Elsevier Academic, Amsterdam. 2nd ed. XVII, 352 p.
  • Deyn, G.B. de, C.E. Raaijmakers & W.H. van der Putten (2004). Plant community development is affected by nutrients and soil biota. Journal of Ecology 92 (5): 824-834.
  • Deyn, G.B. de, C.E. Raaijmakers, J. van Ruijven, F. Berendse & W.H. van der Putten (2004). Plant species identity and diversity effects on different trophic levels of nematodes in the soil food web. Oikos 106: 576-586.
  • Dmowska, E. & K. Ilieva-Makulec (2004). Past and present status of nematode community indicators. Nematology Monographs & Perspectives 2: 487-501.
  • Esquivel, A. (2004). Nematode Fauna of Costa Rican protected areas. Nematropica 33 (2): 131-145.
  • Eyualem, A. (2004). Status quo of limno-nematology: how close are we to understanding the ecology of free-living nematodes in inland water bodies? Nematology Monographs & Perspectives 2: 739-759.
  • Eyualem, A., R. Grizzle, D. Hope and W. Thomas (2004). Nematode diversity in the Gulf of Maine, USA, and a Web-accessible, relational database. Journal of the Marine Biological Association of the United Kingdom 84(6): 1159-1167
  • Ferris, H., R.C. Venette and K.M. Scow (2004). Soil management to enhance bacterivore and fungivore nematode populations and their nitrogen mineralisation function. Applied Soil Ecology 25: 19-35.
  • Ferris, H., T. Bongers & R. de Goede (2004). Nematode faunal analyses to assess food web enrichment and connectance. Nematology Monographs & Perspectives 2: 503-510.
  • Garcia-Alvarez, A., M. Arias, M.A. Diez-Rojo & A. Bello (2004). Effect of agricultural management on soil nematode trophic structure in a Mediterranean cereal system. Applied Soil Ecology 27: 197-210.
  • Hánĕl, L. (2004). Colonization of chemical factory wastes by soil nematodes. Pedobiologia 48: 373-381.
  • Hánĕl, L. (2004). Response of soil nematodes inhabiting spruce forests in the Sumava Mountains to disturbance by bark beetles and clear-cutting. Forest Ecology and Management 202: 209-225.
  • Hoschitz, M., & R. Kaufmann (2004). Soil nematode communities in Alpine summits – site differentiation and microclimatic influences. Pedobiologia 48: 313 – 320.
  • Hoschitz, M., & H. Reisenzein (2004). Vergleichende Untersuchung der bodenbewohnenden Nematodenfauna mit der Wurzelreblaus (Viteus vitifoliae Fitch) befallenen Weinreben (Vitis spp.). Vitis 43 (2): 131-138.
  • Höss, S., W. Traunspurger, G.F. Severin, I. Juetner, G. Pfister and K.-W. Schramm (2004). Influence of 4-nonylphenol on the structure of nematode communities in freshwater microcosms. Environmental Toxicology and Chemistry 23 (5): 1268-1275.
  • Koenning, S.R. & K.R. Barker (2004). Influence of poultry litter applications on nematode communities in cotton agroecosystems. Journal of Nematology 36 (4): 524-533
  • Kovats, N., A. Reichel, T. Szalay, G. Bakonyi and P. Nagy (2004). Assessment of soil contamination using ToxAlert test. Agrokemia es Talajtan 53 (3/4): 343-354
  • Lazarova, S.S., R.G.M. de Goede, V.K. Peneva & T. Bongers (2004). Spatial patterns of variation in the composition and structure of nematode communities in relation to different microhabitats: a case study of Quercus dalechampiii Ten. Forest. Soil Biology & Biochemistry 36: 701-712.
  • Michelsen, O. (2004). Biodiversity Indicators and Environmental Performance Evaluations, outline of a methodology. NTNU, Program for industriell kologi, Rapport nr 3/2004. ISBN 82-7948-033-1 (www.indecol.ntnu.no). 44 p.
  • Moser, T., H-J Schallnass, S.E. Jones, C.A.M. van Gestel, J.E. Koolhaas, J.M.L. Rodrigues and J. Römbke (2004). Ring-testing and field-validation of a Terrestrial Model Ecosystem (TME) – An instrument for testing potentially harmful substances: Effects of carbendazim on nematodes. Ecotoxicology 13: 61-74
  • Mulder, Ch., H.J. Wijnen, H.A. den Hollander, A.J. Schouten, M. Rutgers en A.M. Breure (2004). Referenties voor bodemecosystemen: evaluatie van functies en ecologische diensten. RIVM rapport 607604006/2004, 44 p.
  • Nagy, P., G. Bakonyi, T. Bongers, I. Kasdar, M. Fabian and I. Kiss (2004). Effects of microelements on soil nematode assemblages seven years after contaminating an agricultural field. Science of the Total Environment 320: 131-143.
  • Neher, D.A., D.A. Fiscus and F. Li (2004). Selection of sentinel taxa and biomarkers. Nematology Monographs & Perspectives 2: 511-514.
  • Okada, H. H. Harada & I. Kadota (2004). Application of diversity indices and ecological indices to evaluate nematode community changes after soil fumigation. Japanese Journal of Nematology 34 (2): 89-98.
  • Ou, W., Q. Li, W. Liang, Y Jiang & D. Wen (2004). Effects of water management on soil nematode communities in a paddy field. Chinese Journal of Applied Ecology 15 (10): 1921-1925.
  • Pattison, T., K. Badcock, J. Armour, P. Moody, R. Velupillai, J. Cobon, S. Lindsay, L. Gullino and L. Smith (2004). Using nematodes as biondicators for soil health in bananas. Proc. of the Intern. Soil Sc. Conf. "SuperSoil", 5-9 Dec. 2004, Sydney, Australia. Publ. on CDROM, www.regional.org.au/au/soil. 9 p.
  • Pen-Mouratov, S., X. He and Y. Steinberger (2004). Spatial distribution and trophic diversity of nematode poupulations under Acacia raddiana along a temperature gradient in the Negev Desert ecosystem. Journal of Arid Environments 56: 339-355.
  • Pen-Mouratov, S., M. Rakhimbaev, G. Barness & Y. Steinberger (2004). Spatial and temporal dynamics of nematode populations under Zygophyllum dumosum in arid environments. European Journal of Soil Biology 40: 31-46.
  • Renco, M. (2004). Communities of nematodes in cereal fields following sugar beet. Helminthologia 41 (2): 109-112.
  • Ruess, L. & H. Ferris (2004). Decomposition pathways and successional changes. Nematology Monographs & Perspectives 2: 547-556.
  • Schouten, T., A.M. Breure, C. Mulder and M. Rutgers (2004). Nematode diversity in Dutch soils, from Rio to a biological indicator for soil quality. Nematology Monographs & Perspectives 2: 469-482
  • Straalen, N. van (2004). The use of soil invertebrates in ecological surveys of contaminated soils. In: Vital Soil – function, value and properties (eds.: P. Doelman & H.J.P. Eijsackers). Developments in Soil Science – Vol 29: 159-195.
  • Techau, M.E.C., L. Bjørnlund & S. Christensen (2004). Simulated herbivory effects on rhizosphere organisms in pea (Pisum sativum) depended on phosphate. Plant and Soil 264 (1-2): 185-194.
  • Tenuta, M. & H. Ferris (2004). Sensitivity of nematode life-history groups to ions and osmotic tensions of nitrogenous solutions. Journal of Nematology 36 (1): 85-94.
  • Vanhove, S., H. Vermeeren & A. Vanreusel (2004). Meiofauna towards the South Sandwich Trench (750-6300m), focus on nematodes. Deep Sea Research, part II. Topical studies in Oceanography 51 (14-16): 1665-1687.
  • Vestergård, M. (2004): Nematode assemblages in the rhizosphere of spring barley (Hordeum vulgare L.) depended on fertilisation and plant growth phase. Pedobiologia 48: 257-265.
  • Vestergård, M. L. Bjørnland and S. Christensen (2004). Aphid effects on rhizosphere microorganisms and microfauna depend more on barley growth phase than on soil fertilization. Oecologia 141 (1): 84-93.
  • Villenave, C., K. Ekschmitt, S. Nazaret & T. Bongers (2004). Interactions between nematodes and microbial communities in a tropical soil following manipulation of the soil food web. Soil Biology & Biochemistry 36: 2033-2043.
  • Wang, K.H., R. McSorley & R.N. Gallaher (2004). Relationship of soil management history and nutrient status to nematode community structure. Nematropica 34 (1): 83-95.
  • Wang, K.-H., R. McSorley, A.J. Marshall & R.N. Gallaher (2004). Nematode community changes associated with decomposition of Crotalaria juncea amendment in litterbags. Applied Soil Ecology 27: 31-45
  • Wasilewska, L. (2004). Nematofauna of the shelterbelts in the agricultural landscape. Polish Journal of Ecology 52 (2): 99-113.
  • Wu, J., C. Fu, Y. Liang and J. Chen (2004). Distribution of the meiofaunal community in a eutrophic shallow lake of China. Arch. Hydrobiol. 159 (4): 555-575.
  • Yeates, G.W. (2004). Ecological and behavioral adaptations. In Nematode behaviour (eds R. Gaugler and A.L. Bilgrami). CAB International. 1-24.
  • Zalidis, G.C., M.A. Tsiafouli, V. Takavakoglou, G. Bilas and N. Misopolinos (2004). Selecting agri-environmental indicators to facilitate monitoring and assessment of EU agri-environmental measures effectiveness. Journal of Environmental Management 70: 315-321.
  • Zhang, W., Y. Song, T. Sun, X. Song and X. Zhou (2004). Soil nematode as a bioindicator of environmental pollution. Yingyong Shengtai Xuebao 15 (10): 1973-1978

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2005

  • Ahmad, A., G.E. Wilde and K.Y. Zhu (2005). Detectability of coleopteran-specific Cry3Bb1 protein in soil and its effect on nontarget surface and below-ground arthropods. Environmental Entomology 34 (2): 385-394.
  • Barbuto, M. & A. Zullini (2005). The nematode community of two Italian rivers (Taro and Ticino). Nematology 7 (5): 667-675.
  • Bell, N.L., L.T. Davis, S.U. Sarathchandra, B.I.P. Barratt, C.M. Ferguson and R.J. Townsend (2005). Biodiversity of indigenous tussock grassland sites in Otaga, Canterbury and the central North Island of New Zealand II. Nematodes. Journal of the Royal Society of New Zealand 35 (3): 303-319.
  • Bjørnlund, L., & S. Christensen (2005). How does litter quality and site heterogeneity interact on decomposer food webs of a semi-natural forest? Soil Biology & Biochemistry 37: 203-213.
  • Breure, A.M., C. Mulder, J. Römbke & A. Ruf (2005). Ecological classification and assessment concepts in soil protection. Ecotoxicology and Environmental Safety 62: 211-229
  • Brown, I.M., D.A. Wharton and R.B. Millar (2005). The influence of temperature on the life history of the Antarctic nematode Panagrolaimus davidi. Nematology 6 (6) [2004]: 883-890.
  • Dickinson, N.M., W. Hartley, L.A. Uffindell, A.N. Plumb, H. Rawlinson & P. Putwain (2005). Robust biological descriptors of soil health for use in reclamation of brownfield land. Land Contamination and Reclamation 14 (4): 317-326.
  • Dmowska, E. (2005). Nematodes colonizing power plant ash dumps. II. Nematode communities in ash dumps covered with turf – Effect of reclamation period and soil type. Polish Journal of Ecology 53 (1): 37-51.
  • Forge, T.A., S. bittman & C.G. Kowalenko (2005). Responses of grassland soil nematodes and protozoa to multi-year and single-year applications of dairy manure slurry and fertilizer. Soil Biology & Biochemistry 37: 1751-1762.
  • Fu, S., H. Ferris, D. Brown & R. Plant (2005). Does the positive feedback effect of nematodes on the biomass and activity of their bacteria prey vary with nematode species and population size? Soil Biology & Biochemistry 37: 1979-1987.
  • Georgieva, S., S. Christensen, H. Petersen, P. Gjelstrup & K. Thorup-Kristensen. Early decomposer assemblages of soil organisms in litterbags with vetch and rye roots. Soil Biology and Biochemistry 37: 1145-1155.
  • Georgieva, S., S. Christensen & K. Stevnbak (2005). Nematode succession and microfauna-microorganism interactions during root residue decomposition. Soil Biology & Biochemistry 37: 1763-1774.
  • Li, F., D.A. Neher, B.J. Darby & T.R. Weicht (2005). Observed differences in life history characteristics of nematodes Aphelenchus and Acrobeloides upon exposure to copper and benzo(a)pyrene. Ecotoxicology 14: 419-429.
  • Li, Q., I. E. Mayzlish, I. Shamir, S. Pen-Mouratov, M. Sternberg & Y. Steinberger (2005). Impact of grazing on soil biota in a mediterranean grassland. Land Degradation & Development 16: 581-592
  • Li, Y, J. Wu, H. Chen & J. Chen (2005). nematodes as bioindicator of soil health: methods and applications. Chinese Journal of Applied Ecology 16 (8): 1541-1546.
  • Liang, W.J., Q. Li, Y. Jiang and D.A. Neher (2005). Nematode faunal analysis in an aquic brown soil fertilised with slow-release urea, Northeast China. Applied Soil Ecology 29: 185-192
  • Liang, W.J., I. Lavian, S. Pen-Mouratov and Y. Steinberger (2005). Diversity and dynamics of soil free-living nematode populations in a Mediterranean agroecosystem. Pedosphere 15 (2): 204-215.
  • Liskova, M. & A. Cerevkova (2005). Nematode communities of river banks and adjacent meadows in the Slovak Republic. Helminthologia 42 (4): 223-232.
  • Macchia, E.T., R. McSorley, L.W. Duncan & J. Syvertsen (2005). Effects of plant community composition on nematode communities between rows of trees in a citrus grove. Soil and crop science society of Florida proceedings 64 [2004]: 103-107.
  • Mulder, C., A.J. Schouten, K. Hund-Rinke & A.M. Breure (2005). The use of nematodes in ecological classification and assessment concepts. Ecotoxicology and Environmental Safety 62: 278-289.
  • Neher, D.A., J. Wu, M.E. Barbercheck and O. Anas (2005). Ecosystem type affects interpretation of soil nematode community measures. Applied Soil Ecology 30: 47-64
  • Nicolaidis, N., E. Drosopoulou, G.P. Stamou & Z.G. Scouras (2005). Duplication of an Hsp70 gene in isolates of the colonizer nematode species Acrobeloides nanus may suggest genome plasticity. Journal of Biological Research 4: 167-171.
  • Okada, H., H. Harada and I. Kadota (2005). Fungal feeding habits of six nematode isolates in the genus Filenchus. Soil Biology & Biochemistry 37 (6): 1113-1120
  • Okada, H., H. Harada, T. Tsukibosh & M. Araki (2005). Characteristics of Tylencholaimus parvus (Nematoda: Dorylaimida) as a fungivorous nematode. Nematology 7 (6): 843-849
  • Orselli, L. & M.T. Vinciguerra (2005). Analysis of the nematode fauna structure in the coastal dunes of the Vendicari natural reserve (Sicily, Italy) and evaluation of the environmental disturbances. Nematol. medit. 33-suppl.: 15-18
  • Parisi, V., C. Menta, C. Gardi, C. Jacomini & E. Mozzanica (2005). Microarthropod communities as a tool to assess soil quality and biodiversity: a new approach in Italy. Agriculture, Ecosystem & Environment 105: 323-333.
  • Pen-Mouratov, S. and Y. Steinberger (2005). Spatio-temporal dynamic heterogeneity of nematode abundance in a desert ecosystem. Journal of Nematology 37 (1): 26-36
  • Pen-Mouratov, S. & Y. Steinberger (2005). Responses of nematode community structure to pesticide treatments in an arid ecosystem of the Negev Desert. Nematology 7 (2): 179-191.
  • Postma-Blaauw, M.B., F.T. de Vries, R.G.M. de Goede, J. Bloem, J.H. Faber & L. Brussaard (2005): Within-trophic interactions of bacterivorous nematode species and their effects on the bacterial community and nitrogen mineralization. Oecologia 142: 428-439.
  • Ritter, E., & L. Bjørnlund (2005). Nitrogen availability and nematode populations in soil and litter after gap formation in a semi-natural beech-dominated forest. Applied Soil Ecology 28
  • (2): 175-189.
  • Ruf, A. & L. Beck (2005). The use of predatory soil mites in ecological soil classification and assessment concepts, with perspectives for oribatid mites. Ecotoxicology and Environmental Safety 62: 290-299.
  • Schreck Reis, C., H. Freitas and W. van der Putten (2005). Plant-parasitic nematodes associated with Ammophila arenaria (L.) link in Portuguese coastal sand dunes. Nematologia Mediterranea 33: 11-18.
  • Shukurov, N., S. Pen-Mouratov, N. Genzer, J. Plakht and Y. Steinberger (2005). Distribution of soil microbial biomass and free-living nematode population in terrace chronosequences of Makhtesh-Ramon crater. Arid Land Research and Management 19 (3): 197-213
  • Sonnemann, I. and V. Wolters (2005). The microfood web of grassland soils respond to a moderate increase in atmospheric CO2. Global Change Biology 11: 1148-1155.
  • Stamou, G.P., E.M. Papatheodorou, A. Hovardas & M.D. Argyropoulou (2005). Some structural and functional characteristics of a soil nematode community from a Mediterranean grassland. Belgian Journal of Zoology 135 (2): 253-259.
  • Stirling, G.R., & G.M. Lodge (2005). A survey of Australian temperate pastures in summer and winter rainfall zones: soil nematodes, chemical, and biochemical properties. Australian Journal of Soil Research 43: 887-904.
  • Troch, M. de, L. Vandepitte, M. Raes, E. Suarez-Morales & M. Vincx (2005). A field colonization experiment with meiofauna and seagrass mimics: effect of time, distance and leaf surface area. Marine Biology 148: 73-86.
  • Viketoft, M., C. Palmborg, B. Sohlenius, K. Huss-Daniel & J. Bengtsson (2005). Plant species effects on soil nematode communities in experimental grasslands. Applied Soil Ecology 30: 90-103.
  • Wu, J.H., C.Z. Fu, F. Lu and J.K. Chen (2005). Changes in free-living nematode community structure in relation to progressive land reclamation at an intertidal marsh. Applied Soil Ecology 29 (1): 47-58
  • Zullini, A. (2005). L'importanza della biodiversita della nematofauna nella valutazione ambientale. Nematol. Medit. 33-suppl.: 5-7.

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2006

  • Barbuto, M.  and A. Zullini (2006). Moss inhabiting nematodes: influence of the moss substratum and geographical distribution in Europe. Nematology 8 (4): 575-582
  • Blanc, C., M. Sy, D. Djigal, A. Brauman, P. Normand and C. Villenave (2006). Nutrition on bacteria by bacterial-feeding nematodes and consequences on the structure of soil bacterial community. European Journal of Soil Biology 42: S70-S78
  • Blanchart, E., C. Villenave, A. Viallatoux, B. Barthès, C. Girardin, A. Azontonde and C. Feller (2006). Long-term effect of a legume cover crop (Mucuna pruriens var. utilis) on the communities of soil macrofauna and nematofauna, under maize cultivation, in Southern Benin. European Journal of Soil Biology 42: S136-S144
  • Brmez, M., M. Ivezic & E. Raspudic (2006). Effect of mechanical disturbances on nematode communities in arable land. Helminthologia 43 (2): 117-121
  • Cerevkova, A. (2006). Nematode communities in three types of grassland in the Slovak Republic. Helminthologia 43 (3): 171-176.
  • Chevalier, R., & J.M. Webster (2006). Temporary changes in populations of soil organisms after field application of entomopathogenic nematodes. Journal of Nematology 38 (4): 466-473.
  • Coja, T. & A. Bruckner (2006). The maturity index applied to soil gamasine mites from five natural forests in Austria. Applied Soil Ecology 34: 1-9.
  • Diepingen, A.D. van, O.J. de Vos, G.W. Korthals & A.H.C. van Bruggen (2006). Effects of Organic versus conventional management on chemical and biological parameters in agricultural soils. Applied Soil Ecology 31: 120-135
  • Dmowska, E., and K. Ilieva-Makulec (2006). Secondary succession of nematodes in power plant ash dumps reclaimed by covering with turf. European Journal of Soil Biology 42: S164-S170
  • Ferris, H. & T. Bongers (2006). Nematode indicators of organic enrichment. Journal of Nematology 38 (1): 3-12.
  • Gascón, S., D. Boix, J. Sala & X.D. Quintana (2006). Nematode assemblages and their responses to disturbances: a case study from the Empordà wetlands (northeastern Iberian Peninsula). J. N. Am. Benthol. Soc. 25(3): 643-655.
  • Griffiths, B.S., S. Donn, R. Neilson and T.J. Daniell (2006). Molecular sequencing and morphological analysis of a nematode community. Applied Soil Ecology 32: 325-337
  • Hanel, L. & A. Cerevkova (2006). Diversity of soil nematodes in meadows of the White Carpathians. Helminthologia 43 (2): 109-116.
  • Hodda, M. (2006). Nematodes in lotic systems. In: Freshwater nematodes: ecology and taxonomy (eds. Eyualem-Abebe, W. Traunspurger & I. Andrassy). CABI Publishing. 163-178.
  • Hodda, M., A. Ocaña & W. Traunspurger (2006). Nematodes from extreme freshwater habitats. In: Freshwater nematodes: ecology and taxonomy (eds. Eyualem-Abebe, W. Traunspurger & I. Andrassy). CABI Publishing.179-210
  • Holterman, M., A. van der Wurff, S. van den Elsen, H. van Megen, T. Bongers, O. Holovachov & J. Helder (2006). Phylum-wide analysis of SSU rDNA reveals deep phylogenetic relationships among nematodes and accelerated evolution toward crown clades. Mol. Biol. Evol. 23 (9): 1792-1800.
  • Höss, S., W. Traunspurger & A. Zullini (2006). Freshwater nematodes in environmental science. In: Freshwater nematodes: ecology and taxonomy (eds. Eyualem-Abebe, W. Traunspurger & I. Andrassy). CABI Publishing. 144-162.
  • Hua, J., Y. Jiang & W. Liang (2006). Effects of vegetation coverage on spatial distribution of soil nematode trophic groups. Chinese Journal of Applied Ecology 17 (2): 295-299.
  • Ilieva-Makulec, K., I. Olejniczak and M. Szanser (2006). Responses of soil micro- and mesofauna to diversity and quality of plant litter. European Journal of Soil Biology 42: S244-S249.
  • Jensen, J., N. Sorokin, E.M. Dirven - van Breemen, T. Bogolte, E. Erlacher, C. Ehlers, T. Ter Laak, T. Hartnik, J. Bierkens, M. Rutgers & M. Mesman (2006). A triad-based selection of tools for site-specific assessment of ecological risk. In: Ecological risk assessment of contaminated land (eds: J. Jensen & M. Mesman). RIVM report 711701047 (ISBN 90-6960-138-9). p. 65-116.
  • Lavelle, P., T. Decaëns, M. Aubert, S. Barot, M. Blouin, F. Bureau, P. Margerie, P. Mora and J.-P. Rossi (2006). Soil invertebrates and ecosystem services. European Journal of Soil Biology 42: S3-S15
  • Li Qi, Jiang Yong & Liang Wen-ju (2006). Effect of heavy metals on soil nematode communities in the vicinity of a metallurgical factory. Journal of Environmental Sciences 18 (2): 323-328
  • Liu, Y., J. Hua, Y. Jiang, Q. Li & D. Wen (2006). Nematode communities in greenhouse soil of different ages from Shenyang suburb. Helminthologia 43 (1): 51-57
  • Meng, Fan-Xiang, Ou Wei, Li Qi, Jiang Yong & Wen Da-Zhong (2006). Vertical distribution and seasonal fluctuation of nematode trophic groups as affected by land use. Pedosphere 16 (2): 169-176
  • Nahar, M.S., P.S. Grewal, S.A. Miller, D. Stinner, B.R. Stinner, M.D. Kleinhenz, A. Wszelaki & D. Doohan. (2006). Differential effects of raw and composted manure on nematode community, and its indicative value for soil microbial, physical and chemical properties. Applied Soil Ecology 34: 140-151
  • Neher, D.A. & B.J. Darby (2006). Computation and application of nematode community indices: general guidelines. In: Freshwater nematodes: ecology and taxonomy (eds. Eyualem-Abebe, W. Traunspurger & I. Andrassy). CABI Publishing. 211-222.
  • Römbke, J. (2006). Tools and techniques for the assessment of ecotoxicological impacts of contaminants in the terrestrial environment. Human and Ecological Risk Assessment 12: 84-101.
  • Roessink, I., S.J.H. Crum, F. Bransen, E. van Leeuwen, F. van Kerkum, A.A. Koelmans & T.C.M. Brock (2006). Impact of triphenyltin acetate in microcosms simulating floodplain lakes. I. Influence of sediment quality. Ecotoxicology 15: 267-293
  • Sanchez-Moreno, S., J.A. Camargo & A. Navas (2006). Ecotoxicological assessment of the impact of residual heavy metals on soil nematodes in the Guadiamar river basin (Southern Spain). Environmental Monitoring and Assessment 116: 245-262
  • Sanchez-Moreno, S., H. Minoshima, H. Ferris and L.E. Jackson (2006). Linking soil properties and nematode community composition: effects of soil management on soil food webs. Nematology 8 (5): 703-715.
  • Schratzberger, M., S. Bolam, P. Whomersley & K. Warr (2006). Differential response of nematode colonist communities to the intertidal placement of dredged material. Journal of Experimental Marine Biology and Ecology 334: 244-255
  • Shukurov, N., S. Pen-Mouratov & Y. Steinberger (2006). The influence of soil pollution on soil microbial biomass and nematode community structure in Navoiy Industrial Park, Uzbekistan. Environment International 32: 1 - 11.
  • Sochova, I., J. Hofman & I. Holoubek (2006). Using nematodes in ecotoxicology. Environment International 32: 374-383.
  • Tahseen, Q. (2006). Taxonomic diversity in sewage nematodes of Aligarh, North India. International Journal of Nematology 16 (1): 1-6.
  • Todd, T.C., T.O. Powers & P.G. Mullin (2006). Sentinel nematodes of land-use change and restoration in tallgrass prairie. Journal of Nematology 38 (1): 20-27.
  • Tomar, V.V.S., M. Baniyamuddin & W. Ahmad (2006). Community structure of soil inhabiting nematodes in a mango orchard at Aligarh, India. International Journal of Nematology 16 (1): 89-101
  • Torres, G.R.C., E.M.R. Pedrosa, A.A.A. Montenegro, S.J. Michereff & R.M. Moura (2006). Aspectos ecológicos de comunidade de nematóides associada a cultivo de Cucumis melo no Rio Grande do Norte. Nematologia Brasilieira 30 (1): 1-9
  • Tsiafouli, M.A., M.D. Argyropoulou, G.P. Stamou and S.P Sgardelis (2006). Soil nematode biodiversity in organic and conventional agroecosystems of Northern Greece. Russian Journal of Nematology 14 (2): 159-169
  • Vliet, P.C.J. van, and R.G.M. de Goede (2006). Effects of slurry application methods on soil faunal communities in permanent grassland. European Journal of Soil Biology 42: S348-S353
  • Wang, K.-H., R. McSorley, A. Marshall & R.N. Gallaher (2006). Influence of organic Crotalaria juncea hay and ammonium nitrate fertilizers on soil nematode communities. Applied Soil Ecology 32: 186-198
  • Wasilewska, L. (2006). Changes in the structure of the soil nematode community over long-term secondary grassland succession in drained fen peat. Applied Soil Ecology 32: 165-179
  • Wu, D., B. Zhang & P. Chen (2006). Structural characteristics of soil nematodes community under different land uses in Changchun City. Chinese Journal of Applied Ecology 17 (3): 450-456.
  • Quintana, X.D., D. Boix, A. Badosa, S. Brucet, J. Compte, S. Gascon, R. López-Flores, J. Sala & R. Moreno-Amich (2006). Community structure in Mediterranean shallow lentic ecosystems: Size-based vs. taxon-based approaches. Limnetica 25 (1-2): 303-320.
  • Zhang, X.K., Q. Li, S.B. Wang, Y. Jiang & W. Liang (2006). Effect of zinc addition to soil nematode community structure. Journal of Environmental Contamination and Toxicology 76: 589-594.
  • Zolda, P. (2006). Nematode communities of grazed and ungrazed semi-natural steppe grasslands in Eastern Austria. Pedobiologia 50: 11-22.

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2007

  • Althoff, D.P., P.S. Althoff, N.D. Lambrecht, P.S. Gibson, J.S. Pontius and P.B. Woodford (2007). Soil properties and perceived disturbance of grasslands subjected to mechanized military training: evaluation of an index. Land Degradation & Development 18: 269-288.
  • Bakonyi, G., P. Nagy, E. Kovács-Láng, E. Kovács, S. Barabás, V. Répási and A. Seres (2007). Soil nematode community structure as effected by temperature and moisture in a temperate semiarid shrubland. Applied Soil Ecology 37: 31-40.
  • Berry, S., V.W. Spaull and P. Cadet (2007). Impact of harvesting practices on nematode communities and yield of sugarcane. Crop Protection 26: 1239-1250.
  • Bert, W., M. Messiaen, F. Hendrickx, J. Manhout, T. de Bie and G. Borgonie (2007). Nematode communities of small farmland ponds. Hydrobiologia 583: 91-105.
  • Briar, S.S., P.S. Grewal, N. Somasekhar, D. Stinner and S.A. Miller (2007). Soil nematode community, organic matter, microbial biomass and nitrogen dynamics in field plots transitioning from conventional to organic management. Applied Soil Ecology 37: 256-266.
  • Briar, S.S., G.B. Jagdale, Z. Cheng, C.W. Hoy, S.A. Miller & P.A. Grewal (2007). Indicative value of soil nematode food web indices and trophic group abundance in differentiating habitats with a gradient of anthropogenic impact. Environmental Bioindicators 2 (3): 146-160.
  • Brmez, M., M. Ivezic, E. Raspudic, V. Tripar & R. Balicevic (2007). Nematode communities as bioindicators of anthropogenic influence in agroecosystems. Cereal Research Communications 35 (2/1): 297-300.
  • Chen, H., B. Li, C. Fang, J. Chen and J. Wu (2007). Exotic plant influences soil nematode communities through litter input. Soil Biology & Biochemistry 39: 1782-1793.
  • Critto, A., S. Torresan, E. Semenzin, S. Giove, M. Mesman, A.J. Schouten, M. Rutgers and A. Marcomini (2007). Development of a site-specific ecological risk assessment for contaminated sites: Part I. A multi-criteria based system for the selection of ecotoxicological tests and ecological observations. Science of the total environment 379: 16-33.
  • Darby, B.J., D.A. Neher and J. Belnap (2007). Soil nematode communities are ecologically more mature beneath late- than early-successional biological soil crusts. Applied Soil Ecology 35: 203-212.
  • Doroszuk, A. (2007). Populations under stress. Analysis on the interface between ecology and evolutionary genetics in nematodes. Thesis Wageningen-UR. ISBN 90-8504-603-3. 120 p.
  • Gruzdeva, L.I., E.M. Matveeva and T.E. Kovalenko (2007). Changes in soil nematode communities under the impact of fertilizers. Eurasian Soil Science 40 (6): 681-693.
  • Heininger, P., S. Höss, E. Claus, J. Pelzer and W. Traunspurger (2007). Nematode communities in contaminated river sediments. Environmental Pollution 146: 64-76.
  • Ilieva-Makulec, K. and G. Makulec (2007). Does the activity of the earthworm Aporrectodea caliginosa modify the plant diversity effect on soil nematodes? European Journal of Soil Biology 43: 157-164.
  • Jiang, D., Q. Li, F. Liu, Y. Jiang and W. Liang (2007). Vertical distribution of soil nematodes in an age sequence of Caragana microphylla plantations in the Horqin Sandy Land, Northeast China. Ecol. Res. 22: 49-56.
  • Kalevitch, M.V., and V.I. Kefeli (2007). Fungi in fabricated soils. International Journal of Environment and Pollution 29 (4): 424-434.
  • Kalevitch, M.V., and V.I. Kefeli (2007). Study of bacterial activity in fabricated soils. International Journal of Environment and Pollution 29 (4): 412-423.
  • Leroy, B.L.M.M., L. Bommele, D. Reheul, M. Moens and S. de Neve (2007). The application of vegetable, fruit and garden waste (VFG) compost in addition to cattle slurry in a silage maize monoculture: Effects on soil fauna and yield. European Journal of Soil Biology 43: 91-100.
  • Liang, W.J., F.P. Li, Q. Li and W.D. Zhang (2007). Temporal dynamics of soil nematode community structure under invasive Ambrosia trifida and native Chenopodium serotinum. Helminthologia 44 (1): 29-33
  • Li, Q., W.J. Liang, Y. Jiang, Y. Shi, J. Zhu and D.A. Neher. (2007). Effect of elevated CO2 and N fertilisation on soil nematode abundance and diversity in a wheat field. Applied Soil Ecology 36 (1): 63-69.
  • Li, Y., J. Feng, J. Chen & J. Wu (2007). Original vegetation type affects soil nematode communities. Applied Soil Ecology 35: 68-78.
  • Liskova, M. & M. Renco (2007). Communities of free living and plant parasitic nematodes in hop gardens in Slovakia. Helminthologia 44 (2): 80-86.
  • Minoshima, H., L.E. Jackson, T.R. Cavagnaro, S. Sánchez-Moreno, H. Ferris, S.R. Temple, S. Goyal and J.P. Mitchell (2007). Soil food webs and carbon dynamics in response to conservation tillage in California. SSSAJ 71 (3): 952-963.
  • Okada, H., and H. Harada (2007). Effects of tillage and fertilizer on nematode communities in a Japanese soybean field. Applied Soil Ecology 35: 582-598.
  • Pavao-Zuckerman, M.A. & D.C. Coleman (2007). Urbanization alters the functional composition, but not taxonomic diversity,of the soil nematode community. Applied Soil Ecology 35: 329-339.
  • Powell, J.R. (2007). Linking soil organisms within food webs to ecosystem functioning and environmental change. Advances in Agronomy 96: 307-350.
  • Rahman, L., K.Y. Chan and D.P. Heenan (2007). Impact of tillage, stubble management and crop rotation on nematode populations in a long-term field experiment. Soil & Tillage Research 95: 110-119.
  • Sanchez-Moreno, S. and H. Ferris (2007). Suppressive service of the soil food web: Effects of environmental management. Agriculture, Ecosystems & Environment 119: 75-87.
  • Sánchez-Moreno, S. and A. Navas (2007). Nematode diversity and food web condition in heavy metal polluted soils in a river basin in Southern Spain. European Journal of Soil Biology 43: 166-179.
  • Schratzberger, M., K. Warr and S.I. Rogers (2007). Functional diversity of nematode communities in the southwestern North Sea. Marine Environmental Research 63: 368-389.
  • Sublette, K., E. Jennings, C. Mehta, K. Duncan, J. Brokaw, T. Todd and G. Thoma (2007). Monitoring soil ecosystem recovery following bioremediation of a terrestrial crude oil spill with and without a fertilizer amendment. Soil & Sediment Contamination 16: 181-208.
  • Sublette, K.L., J.B. Tapp, J.B. Fisher, E. Jennings, K. Duncan, G. Thoma, J. Brokaw & T. Todd (2007). Lessons learned in remediation and restoration in the Oklahoma prairie: A review. Applied Geochemistry 22 (10): 2225-2239
  • Tsiafouli, M.A., M.A. Argyropoulou, G.P. Stamou and S.P. Sgardelis (2007). Is duration of organic management reflected on nematode communities of cultivated soils? Belgium Journal of Zoology 137 (2): 165-175.
  • Tsiafouli, A.M. (2007). Soil biodiversity in organic and conventional agro-ecosystems. Thesis, Aristotle University, Thessaloniki. 200 p.
  • Viketoft, M. (2007). Plant induces spatial distribution of nematodes in a semi-natural grassland. Nematology 9 (1): 131-142.
  • Wagelmans, M., M. Henssen, N. van Ras & T. Grotenhuis (2007). Micropollutants in soils: What are the actual risks and perspectives? Batelle Press – 9th International in situ and on-site bioremediation symposium 2007, 2: 1410-1417.
  • Witthöft-Mühlmann, A., W. Traunspurger and K.O. Rothhaupt (2007). Combined influence of river discharge and wind on littoral nematode communities of a river mouth area of Lake Constance. Aquatic Ecology 41: 231-242.
  • Wurff, A.W.G. van der, S.A.E. Kools, M.E.Y. Boivin, P.J. van den Brink, H.H.M. van Megen, J.A.G. Riksen, A. Doroszuk and J.E. Kammenga (2007). Type of disturbance and ecological history determine structural stability. Ecological Applications 17(1): 190-202.
  • Wu, D.-H., W.-Y. Yin & R.-Q. Yan (2007). Effects of vegetation recovery practices on the characteristics of soil nematode communities on seriously degraded grassland in Songnen Plain. Chinese Journal of Applied Ecology 18 (12): 2783-2790.
  • Zhang, X.K., W.J. Liang, D.M. Jiang, Z.M. Liu and S.W. Jiang. Soil nematode community structure in a Chinese sand dune system. Helminthologia 44 (4): 204-209.
  • Zhang, W.D., X.F. Wang, Q. Li, Y. Jiang and W.J. Liang (2007). Soil nematode response to heavy metal stress. Helminthologia 44 (2): 87-91.
  • Zolda, P., and L. Hánel (2007). Soil nematodes inhabiting an original dry meadow and an abandoned vineyard in the National Park Seewinkel, Eastern Austria. Helminthologia 44 (3): 112-117.

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2008


  • Abebe, E., W. Decraemer and P. de Ley (2008). Global diversity of nematodes (Nematoda) in freshwater. Hydrobiologia 595: 67-78.
  • Ayres, E., D.H. Wall, B.L. Simmons, C.B. Field, D.G. Milchunas, J.A. Morgan and J. Roy (2008). Belowground nematode herbivores are resistant to elevated atmospheric CO2 concentrations in grassland ecosystems. Soil Biology & Biochemistry 40: 978-985.
  • Azpilicueta, C.V., M.C. Aruani, P.D. Reeb, & E.E. Sanchez (2008). Estructura de la comunidad de nematodos del suelo bajo dos niveles de fertilizacion nitrogenada en Alto Valle de Rio Negro, Argentina. Nematropica 38: 75-86.
  • Biederman, L.A., T.W. Boutton, S.G. Whisenant (2008). Nematode community
  •  development early in ecological restoration: The role of organic amendments. Soil Biology & Biochemistry 40: 2366-2374.
  • Biagini, B. & A. Zullini (2008). Nematode communities in three differently managed agricultural fields. Fresenius Environmental Bulletin 17 (8 B): 1151-1160.
  • Brmez, M., M. Ivezic, E. Raspudic, V. Rozman & T. Sudaric (2008). Effect of chemical treatments on soil nematode community in winter wheat field. Cereal Research Communications 36 (suppl.): 223-226.
  • Cheng, Z., D.S. Richmond, S.O. Salminen & P.S. Grewal (2008). Ecology of urban lawns under three common management programs. Urban Ecosyst. 11: 177-195.
  • Cheng, Z., P.S. Grewal, B.R. Stinner, K.A. Hurto and H.B. Hamza (2008). Effects of long-term turfgrass management practices on soil nematode community and nutrient pools. Applied Soil Ecology 38: 174-185.
  • Christl, H. (2008). Die Nematoden des Breitenbachs – Struktur, Dynamik und mögliche Funktion im Ökosystem eines Mittelgebirgsbachs. Thesis, Philipps-Universität Marburg. 403 p.
  • Ciobanu, M. (2008). Nematode fauna associated with salt-affected areas in Transylvania. Thesis. Cluj University Press. ISBN 978-973-610-729-0. 108 p.
  • Dong, D.F., Y.F. Chen, Y. Steinberger and Z.P. Cao. (2008). Effect of different soil management practices on soil free-living nematode community structure, Eastern China. Canadian Journal of Soil Science 88 (1): 115-127.
  • Eekeren, N. van, L. Bommelé, J. Bloem, T. Schouten, M. Rutgers, R. de Goede, D. Reheul & L. Brussaard (2008). Soil biological quality after 36 years of ley-arable cropping, permanent grassland and permanent arable cropping. Applied Soil Ecology 40: 432-446.
  • Eisendle, U. (2008). Spatiotemporal distribution of free-living nematodes in glacial-fed stream reaches (Hohe Tauern, Eastern Alps, Austria). Arctic, Antarctic, and Alpine Research 40 (3): 470-480.
  • Filser, J., H. Koehler, A. Ruf, J. Römbke, A. Prinzing & M. Schaefer (2008): Ecological theory meets soil ecotoxicology: challenge and chance. Basic and Applied Ecology 9: 346-355.
  • Forge, T.A., E.J. Hogue, G. Neilsen and D. Neilsen (2008). Organic mulches alter nematode communities, root growth and fluxes of phosphorus in the root zone of apple. Applied Soil Ecology 39: 15-22.
  • Hanel, L. (2008). Nematode assemblages indicate soil restoration on colliery spoils afforested by planting different tree species and by natural succession. Applied Soil Ecology 40: 86-99.
  • Holterman, M., K. Rybarczyk, S. van den Elsen, H. van Megen, P. Mooyman, R. Peña-Santiago, T. Bongers, J. Bakker and J. Helder (2008). A ribosomal DNA-based framework for the detection and quantification of stress-sensitive nematode families in terrestrial habitats. Molecular Ecology Resources 8 (1): 23-34.
  • Höss, S., M. Arndt, S. Baumgarte, C.C. Tebbe, H.T. Nguyen & J.A. Jehle (2008). Effects of transgenic corn and Cry1Ab protein on the nematode, Caenorhabditis elegans. Ecotoxicology and Environmental Safety 70: 334-340.
  • Hoy, C.W., P.S. Grewal, J.L. Lawrence, G. Jagdale & N. Acosta (2008). Canonical correspondence analysis demonstrates unique soil conditions for entomopathogenic nematode species compared with other free-living nematode species. Biological Control 46: 371-379.
  • Hua, J.F., X.G. Lin, W.S. Shen, R. Yin & Y.Z. Feng (2008). Effects of land use history and inoculation with Fusarium oxysporum f.sp. cucumberinum Owen on soil nematodes communities. Helminthologia 45 (4): 204-210.
  • Hua, J., Jiang Y. & W. Liang (2008). Effects of vegetation coverage on the spatial distribution of soil nematode trophic groups. Frontiers of Biology in China 3 (1): 63-67
  • Kalevitch, M.V. & V.I. Kefeli (2008). Bacterial presence in manufactured soils. Journal of Agricultural, Food, and Environmental Sciences 2 (1). [E-journal, no pages].
  • Liskova, M., A. Cerevkova & L. Hanel (2008). Nematode communities of forest ecosystems in association with various soil orders. Russian Journal of Nematology 16 (2): 129-142
  • Liu, M., X. Chen, J. Qin, D. Wang, B. Griffiths & F. Hu (2008). A sequential extraction procedure reveals that water management affects soil nematode communities in paddy fields. Applied Soil Ecology 40: 250-259.
  • Marin, V., M. Moreno, P. Vassalo, L. Vezzuli & M. Fabiano (2008). Development of a multistep indicator-based approach (MIBA) for the assessment of environmental quality of harbours. ICES Journal of Marine Science 65 (8): 1436-1441.
  • McSorley, R., K.-H. Wang & G. Church (2008). Suppression of root-knot nematodes in natural and agricultural soils. Applied Soil Ecology 39: 291-298.
  • Mele, P.M., & D.E. Crowley (2008). Application of self-organizing maps for assessing soil biological quality. Agriculture, Ecosystems and Environment 126: 139-152.
  • Menta, C., A. Leoni, M. Bardini, C. Giardi & F. Gatti (2008). Nematode and microarthropod communities: Comparative use of soil quality bioindicators in covered dump and natural soils. Environmental Bioindicators 3 (1): 35-46.
  • Mincheva, Y., S. Lazarova & V. Peneva (2008). Nematode assemblages from Macedonian pine communities in northern Pirin Mountain. Comptes Rendus de L’Academie Bulgare des Sciences 61 (9): 1169-1174.
  • Michelsen, O. (2008). Assessment of land use impact on biodiversity. Proposal of a new methodology exemplified with forestry operations in Norway. Int. J. LCA 13 (1): 22-31.
  • Moreno, M., T.J. Ferrero, I. Gallizia, L. Vezzuli, G. Albertelli & M. Fabiano (2008). An Assessment of the spatial heterogeneity of environmental disturbance within an enclosed harbour through the analysis of meiofauna and nematode assemblages. Estuarine, Coastal and Shelf Science 77: 565-576.
  • Niwa, S. (2008). Effects of sikadeer (Cervus nippon) on soil decomposer system and community structure of soil nematode. Journal of the Japanese Forestry Society 90: 327-334
  • Okada, H. & H. Oba (2008). Comparison of nematode community similarities assessed by polymerase chain reaction-denaturing gradient gel electrophoresis (DGGE) and by morphological identification. Nematology 10 (5): 689-700.
  • Parisi, V. & C. Menta (2008). Microarthropods of the soil: Convergence phenomena and evaluation of soil quality using QBS-ar and QBS-C. Fresenius Environmental Bulletin 17 (8 B): 1170-1174.
  • Pattison, A.B., P.W. Moody, K.A. Badcock, L.J. Smith, J.A. Armour, V. Rasiah, J.A. Cobon, L.-M. Gulino & R. Mayer (2008). Development of key soil health indicators for the Australian banana industry. Applied Soil Ecology 40: 155-164.
  • Pen-Mouratov, S., G. Barness & Y. Steinberger (2008). Effect of desert plant ecophysiological adaptation on soil nematode communities. European Journal of Soil Biology 44: 298-308.
  • Pen-Mouratov, S., S. Rodriguez-Zaragoza & Y. Steinberger (2008). The effect of Cercidium praecox and Prosopis laevigata on vertical distribution of soil free-living nematode communities in the Tehuacán Desert, Mexico. Ecol. Res. 23: 973-982.
  • Pen-Mouratov, S., N. Shukurov, J. Plakht and Y. Steinberger (2008). Soil microbial activity and free-living nematode community in the upper soil layer of the anticline erosional cirque, Makhtesh Ramon, Israel. European Journal of Soil Biology 44: 71-79.
  • Pen-Mouratov, S., N. Shukurov and Y. Steinberger (2008). Influence of industrial heavy metal pollution on soil free-living nematode population. Environmental Pollution 152: 172-183.
  • Rossouw, J., L. van Rensburg, S. Claassens, P.J. Jansen van Rensburg (2008). Nematodes as indicators of ecosystem development during platinum mine tailings reclamation. Environmentalist 28: 99-107.
  • Sánchez-Moreno, S., H. Ferris and N. Guil (2008). Role of tardigrades in the suppressive service of a soil food web. Agriculture, Ecosystem and Environment 124: 187-192.
  • Santos, G.A.P. dos, S. Derycke, V.G. Fonsêca-Genevois, L.C.B.B. Coelho, M.T.S. Correia and T. Moens (2008). Differential effects of food availability on population growth and fitness of three species of estuarine, bacterial-feeding nematodes. Journal of Experimental Marine Biology and Ecology 355: 27-40.
  • Shao, Y., W. Zhang, J. Shen, L. Zhou, H. Xia, W. Shu, H. Ferris & S. Fu (2008). Nematodes as indicators of soil recovery in tailings of a lead/zinc mine. Soil Biology & Biochemistry 40: 2040-2046.
  • Schon, N.L., A.D. Mackay, M.A. Minor, G.W. Yeates & M.J. Hedley (2008): Soil fauna in grazed New Zealand hill country pastures at two management intensities. Applied Soil Ecology 40: 218-228.
  • Schreck Reis, C., H. Freitas and W.H. van der Putten (2008). Responses of root-feeding nematodes (Helicotylenchus spp.) to local and non-local populations of the host plant Ammophila arenaria. Applied Soil Ecology 39: 245-253.
  • Vezzuli, L., M. Moreno, V. Marin, E. Pezzati, M. Bartoli & M. Fabiano (2008). Organic waste impact of capture-based Atlantic bluefin tuna aquaculture at an exposed site in the Mediterranean Sea. Estuarine, Coastal and Shelf Science 78: 369-384.
  • Viketoft, M. (2008). Effects of six grassland plant species on soil nematodes: A glasshouse experiment. Soil Biology & Biochemistry 40: 906-915.
  • Vliet, P.C.J. van, & R.G.M. de Goede (2008). Nematode-based risk assessment of mixture toxicity in a moderately polluted River floodplain in The Netherlands. Science of the total Environment 406: 449-454.
  • Wada, S. & K. Toyota (2008). Effect of three organophosphorous nematicides on non-target nematodes and soil microbial community. Microbes and Environments 23: 331-336
  • Wang, S.-J., Q.-J. Cai & H.-H. Ruan (2008). Ecological characteristics of nematode communities in rhizosphere soil at different habitats of Cryptomeria fortunei. Chinese Journal of Ecology 27 (4): 583-590.
  • Wu, H.Y., X.X. Li, L.B. Shi, Z.H. Wang and F.Y. Ma (2008). Distribution of nematodes in wetland soils with different distance from the Bohai Sea. Plant Soil Environ., 54 (8): 359-366.
  • Wu, J., W. Ruan, X. Zhang, J. Li, H. Guo, J. Li & Y. Gao (2008). Diversity of soil nematode communities in roots of Caragana Fabr. in the inner Mongolia plateau, China. Chinese Journal of Applied and Environmental Biology 14 (5): 624-629.
  • Zhi, D., H. Li and W. Nan (2008). Nematode communities in the artificially vegetated belt with or without irrigation in the Tengger Desert, China. European Journal of Soil Biology 44: 238-246.

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2009

  • Armenteros, M., A. Ruiz-Abierno, R. Fernández-Garcés, J.A. Pérez-Garcia, L. Diaz-Asencio, M. Vincx & W. Decraemer (2009). Estuarine, Coastal and Shelf Science 85: 179-189
  • Austin, E., K. Semmens, C. Parsons & T. Amy (2009). Granite rock outcrops: An extreme environment for soil nematodes? Journal of Nematology 41: 84-91
  • Bert, W., J. Manhout, C. van Colen, G. Borgonie & W.Decraemer (2009). Nematode assemblages in a nature reserve with historical pollution. Belgian Journal of Zoology 139: 3-14
  • Biederman, L.A., & T.W. Boutton (2009). Biodiversity and trophic structure of soil nematode communities are altered following woody plant invasion of grassland. Soil Biology and Biochemistry 41: 1943-1950
  • Bignell, D.E. (2009). Towards a universal sampling protocol for soil biotas in the humid tropics. Pesquiesa Agropecuria Brasileira 44: 825-834
  • Cerevkova, A. (2009). Soil nematode community changes associated with windfall and wildfire in forest soil at the high tatras national park, Slovak republic. Helminthologia 46: 123-130
  • Chen, G., J. Qin, D. Shi, Y. Zhang & W. Ji (2009). Diversity of soil nematodes in areas polluted with heavy metals and polycyclic aromatic hydrocarbons (PAHs) in Lanzhou, China. Environmental management 44: 163-172
  • Cheng, Z. & P.S. Grewal (2009). Dynamics of the soil nematode food web and nutrient pools under tall fescue lawns established on soil matrices resulting from common urban development activities. Applied Soil Ecology 42: 107-117
  • Dos Santos, G.A.P., S. Derycke, V.G.F. Genevois, L.C.B.B. Coelho, M.T.S. Correia & T. Moens (2009). Interaction among bacterial-feeding nematode species at different levels of food availability. Marine Biology 156: 629-640
  • DuPont, S.T., H. Ferris & M. van Horn (2009). Effects of cover crop quality and quantity on nematode-based soil food webs and nutrient cycling. Applied Soil Ecology 41: 157-167
  • Duyck, P.F., S. Pavoine, P. Tixier, C. Chabrier & P. Quénéhervé (2009). Host range as an axis of niche partitioning in the plant-feeding nematode community of banana agroecosystems. Soil Biology and Biochemistry 41: 1139-1145
  • Eekeren, N. van, H. de Boer, J. Bloem, T. Schouten, M. Rutgers, R. de Goede & L. Brussaard (2010). Soil biological quality of grassland fertilized with adjusted cattle manure slurries in comparison with organic and inorganic fertilizers. Biology and Fertility of Soils 45: 595-608
  • Eekeren, N. van, D. van Liere, F. de Vries, M. Rutgers, R. de Goede & L. Brussaard (2010). A mixture of grass and clover combines the positive effects of both plant species on selected soil biota. Applied Soil Ecology 42: 254-263
  • Eisendle, U. (2009). Distribution patterns of free-living nematodes in differently degraded river reaches of the River Wien, Austria. Nematology 11: 509-521
  • Fu, S., X. Zou & D. Coleman (2009). Highlights and perspectives of soil biology and ecology research in China. Soil Biology and Biochemistry 41: 868-876
  • Garcia-Ruiz, R., V. Ochoa, B. Vinegla, M.B. Hinojosa, R. Pena-Santiago, G. Liébanas, J.C. Linares & J.A. Carreira (2009). Soil enzymes, nematode community and selected physic-chemical properties as soil quality indicators in organic and conventional olive oil farming: Influence of seasonality and site features. Applied Soil Ecology 41: 305-314
  • Gardi, C., L. Montanarella, D. Arrouays, A. Bispo, P. Lemanceau, C. Jolivet, C. Mulder, L. Ranjhard, J. Römbke, M. Rutgers & C. Menta (2009). Soil biodiversity monitoring in Europe: Ongoing activities and challenges. European Journal of Soil Science 60: 807-819
  • Han, D., X. Zhang, V.V.S. Tomar, Q. Li, D. Wen & W. Liang (2009). Effects of heavy metal pollution of highway origin on soil nematode guilds in North Shenyang, hina. Journal of Environmental Sciences 21: 193-198
  • Hua, J.F., X.G. Lin, R. Yin & Q. Jiang (2009). Effects of arsenic contamination on structure of soil nematode community in mining area. Journal of Ecology and Rural Environment 25: 79-84
  • Ilieva-Maculec, K & G. Gryziak (2009). Response of soil nematodes to climate-induced melting of Antarctic glaciers. Polish Journal of Ecology 57: 811-816
  • Kools, S.A.E., M.-E. Y. Boivin, A.W.G. van der Wurff, M. P. Berg, C.A.M. van Gestel & N.M. van Straalen (2009). Assessment of structure and function in metal polluted grasslands using terrestrial model ecosystems. Ecotoxicology and Environmental Safety 72: 51-59
  • Kounda-Kiki, C., L. Celini, J.F. Ponge, P. Mora & C. Sarthou (2009). Nested variation on soil arthropod communities in isolated patches of vegetation on a rocky outcrop. Soil Biology & Biochemistry 41: 323-329
  • Leroy, B.L.M., N. de Sutter, H. Ferris, H. Moens & D. Reheul (2009). Short-term nematode population dynamics as influenced by the quality of exogenous organic matter. Nematology 11: 23-38
  • Liang, W., Y. Lou, Q. Li, S. Zhong, X. Zhang & J. Wang (2009). Nematode faunal response to long-term application of nitrogen fertilizer and organic manure in Northeast China. Soil Biology and Biochemistry 41: 883-890
  • Li., Q., Y. Jiang, W. Liang, H. Wang & S.W. Jiang (2009). Nematode diversity in phaeozem agroecosystems in Northeast China. Pedosphere 19: 597-605
  • Li, Q., C. Xu, W. Liang, S. Zhong, X. Zheng & J. Zhu (2009). Residu incorporation and N fertilization affect the response of soil nematodes to the elevated CO2 in a Chinese wheat field. Soil Biology and Biochemistry 41: 1497-1503
  • Liu, X.S., S.G. Cheung & P.K.S. Shin (2009). Meiofauna with special reference to nematodes in trawling ground of subtropical Hong Kong. Marine Pollution Bulletin: 58: 607-615
  • Mahran, A., M. Yenuta, R.A, Lumactud & F. Daayf (2009). Response of a soil nematode community to liquid hog manure and its acidification. Applied Soil Ecology 43: 75-82
  • Mincheva, Y., S. Lazarova & V. Peneva (2009). Nematode assemblages from Mountain Pine (Pinus mugo Turra) communities in Prin Mountain, Bulgaria. Helminthologia 46: 49-58
  • Mondino, E.A., O.C.H. Tavares, A.G. Ebeling, A.F. Figueira, E.I. Quintero & R.L.L. Berbera (2010). Evaluation of nematodes community in organic agricultural systems. Acta Scientiarum – Agronomy 31: 509-515
  • Moser, T., & S. Frankenbach (2009). Methodological adaptation for nematodes extraction in forest soils of the southern Mata Atlantica. Pescuiesa Agropecuaria Brasilieira 44: 975-980
  • Netto, S.A., & T.J. Pereira (2009). Benthic community response to a passive fishing gear in a coastal lagoon (South Brazil). Aquatic Ecology 43: 521-538
  • Pen-Mouratov, S., N. Berg, N. Genzer, S. Ukabi, D. Shargil & Y. Steinberger (2009). Do slope orientation and sampling location determine soil biota composition? Frontiers of Biology in China 4: 364-375
  • Rahman, L., M.A. Whitelaw-Weckert, R.J. Hutton & B. Orchard (2009). Impact of floor vegetation on the abundance of nematode trophic groups in vineyards. Applied Soil Ecology 42: 96-106
  • Ritz, K., H.I.J. Black, C.D. Campbell, J.. Harris & C. Wood (2009). Selecting biological indicators for monitoring soils: A framework for balancing scientific and technical opinion to assist policy development. Ecological Indicators 9: 1212-1221
  • Rutgers, M., A.J. Schouten, J. Bloem. N. van Eekeren, R.G.M. de Goede, G.A.J.M. Jagers op Akkerhuis, A. van der Wal, C. Mulder &. A.M. Breure (2009). Biological measurements in a nationwide soil monitoring network. European Journal of Soil Science 60: 820-832
  • Sánchez-Moreno, S., N.L. Nicola, H. Ferris & F.G. Zalom (2009). Effects of agricultural management on nematode-mite assemblages: Soil food web indices as predictors of mite community composition. Applied Soil Ecology 41: 107-117
  • Shukurov, N., S. Pen-Mouratov, Y. Steinberger & M. Kersten (2009). Soil biogeochemical properties of Angren industrial area, Uzbekistan. Journal of Soils and Sediments 9: 206-215
  • Soltwebel, T., V. Mokievsky, T. Schewe & C. Hasemann (2009). Yermak Plateau revisited: Spatial and temporal patterns of meiofaunal assemblages under permanent ice-coverage. Polar Biology 32: 1159-1176
  • Tomar, V.V.S. & W. Ahmad (2009). Food web diagnostics and functional diversity of soil inhabiting nematodes in a natural woodland. Helminthologia 46: 183-189
  • Tomar, V.V.S., X.K. Zhang, Q. Li Y. Jiang & W.J. Liang (2009). Distribution of soil nematode communities along a section of Shen-Ha Highway. Helminthologia 46: 241-246
  • Uvarov, A.V., N. Kolosova & O. Kolunich (2009). Combined effects of earthworms and diurnal temperature fluctuations on successional changes of litter nematode community. Polish Journal of Ecology 57: 695-696
  • Villenave, C., D. Djigal, A. Brauman & C. Rouland-Lefevre (2009). Nematodes, indicators of the origin of the soil used by termites to construct biostructures. Pedobiologia 52: 301-307
  • Villenave, C., B. Rabary, J.L. Chotte, E. Blanchart & D. Djigal (1009). Impact of direct seeding mulch-based cropping systems on soil nematodes in a long-term experiment in Madagascar. Pesquisa Agropecuaria Brasilieira 44: 949-953
  • Wang, Y., H. Chen, H. Chen, J. Wu (2009). Influences of chronic contamination of oil field exploitation on soil nematode communities at the Yellow River Delta of China. Frontiers of Biology in China 4: 376-383
  • Zhi, D., X. Ding, W. Nan & H. Li (2009). Nematodes as an indicator of biological crust development in the tengger desert, China. Arid Land Research and Management 23: 223-236
  • Zhi, D., W. Nan, X. Ding, Q. Xie & H. Li (2009). Soil nematode community succession in stabilised sand dunes in the Tengger Desert, China. Australian Journal of Soil Research 47: 508-517

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2010 



  • Culman, S.W., S.T. Dupont, J.D. Glover, D.H Buckley, G.W. Fick, H. Ferris & T.E. Crews (2010). Long-term impacts of high-input annual cropping and unfertilized perennial grass production on soil properties and belowground food webs in Kansas, USA. Agriculture, Ecosystems and Environment 137: 13-24
  • Darby, B.J., D.A. Neher & J. Belnap (2010). Impact of biological soil crust and desert plants on soil microfaunal community composition. Plant and Soil 328: 421-431
  • Dorel, M., S. Lakhia, C. Pététin, S. Bouamer and J.M. Riséde (2010). No-till banana planting on crop residue mulch: Effect on soil quality and crop functioning. Fruits 65: 55-68
  • DuPont, S.T., S.W. Culman, H. Ferris, D.H. Buckley, J.D. Glover (2010). No-tillage conversion of harvested perennial grassland to annual cropland reduces root biomass, decreases active carbon stocks, and impacts soil biota. Agriculture, Ecosystems and Environment 137: 25-32
  • Ferris, H. (2010). Form and function: Metabolic footprints of nematodes in the soil food web. European Journal of Soil Biology 46: 97-104
  • Glover, J.D., S.W. Culman, S.T. DuPont, W. Broussard, L. Young, M.E. Mangan, J.G. Mai, T.E. Crews, L.R. DeHaan, D.H. Buckley, H. Ferris, R.E. Turner, H.L. Reynolds & D.L. Wyse (2010). Harvested perennial grasslands provide ecological benchmarks for agricultural sustainability. Agriculture, Ecosystems and Environment 137: 3-12
  • Gruver, L.S., R.R. Weil, I.A. Zasada, S. Sardanelli & B. Momen. (2010). Brassicaceous and rye cover crops altered free-living soil nematode community composition. Applied Soil Ecology 45: 1-12
  • Hao, W., Q. Li, J. Zhang, Y.Jiang & W. Liang (2010). Utility of nematode Acrobeloides nanus for assessing subacute toxicity of heavy metals. Environmental Monitoring and Assessment 164: 273-278
  • Hu, C. & Y.C. Qi (2010). Abundance and diversity of soil nematodes as influenced by different types of organic manure. Helminthologia 47: 58-66
  • Hua, J.F., X.G. Lin, J.F. Bai, Y. Shao, R. Yin & Q. Jiang (2010). Pedosphere 20: 163-173. Effects of arbuscular mycorrhizal fungi and earthworm on nematode communities and arsenic uptake by maize in arsenic-contaminated soils. Pedosphere 20: 163-173
  • Kapagianni, P.D., G. Boutsis, M.D. Argyropoulou, E.M. Papatheodorou & G.P. Stamou (2010). The network of interactions among soil quality variables anmd nematodes: short-term responses to disturbances induced by chemical and organic disinfection. Applied Soil Ecology 44: 67-74
  • Netto, S.A., & I. Valgas (2010). The response of nematode assemblages to intensive mussel farming in coastal sediments (Southern Brasil). Environmental Monitoring and Assessment 162: 81-93
  • Pan, F., N.B. McLaughlin, Q. Yu, A.G. Xue, Y. Xu, X. Han, C. Li,  D. Zhao (2010). Responses of soil nematode community structure to different long-term fertilizer strategies in the soybean phase of a soybean-wheat-corn rotation. European Journal of Soil Biology 46: 105-111
  • Pen-Mouratov, S., T. Myblatt, I. Shamir, G. Barness & Y. Steinberger (2010). Soil biota in the Arava Valley of Negev Desert, Israel, Pedosphere 20: 273-284
  • Pen-Mouratov, S., N. Shukurov & Y. Steinberger (2010). Soil free-living nematodes as indicators of both industrial and livestock activity in Central Asia. Ecological Indicators 10: 955-967
  • Postma-Blaauw, M.B., R.G.M. de Goede, J. Bloem, J. Faber & L. Brussaard (2010). Soil biota community structure and abundance under Agricultural intensification and extensification. Ecology 91: 460-473
  • Sánchez-Moreno, S., L. Jiménez, J.L. Alonso-Prados & J.M. Garcia-Baudin (2010). Nematodes as indicators of fumigant effects on soil food webs in strawberry crops in Sothern Spain. Ecological Indicators 10: 148-156
  • Semprucci, F., P.Boi, A. Manti, A.C. Harriague, M. Rocchi, P. Colantoni, S. Papa & M. Balsamo (2010). Benthic communities along a littoral of the Central Adriatic Sea (Italy). Helgoland Marine Research 64: 101-115
  • Steel, H., E. de la Pena, P. Fonderie, K. Willekens, G. Borgonie & W. Bert (2010). Nematode succession during decomposition and the potential of the nematode community as an indicator of compost maturity. Pedobiologia 53: 181-190
  • Tong, F.C., Y.H. Xiao & Q.L. Wang. (2010). Soil nematode community structure on the northern slope of Changbai Mountain, Northeast China. Journal of Forestry Research 21: 93-98
  • Veen, G.F., H. Olff, H. Duyts & W.H. van der Putten (2010). Vertebrate herbivores influence soil nematodes by modifying plant communities. Ecology 91: 828-835
  • Wu, H.C., P.C. Chen & T.T. Tsay (2010). Assessment of nematode community structure as a bioindicator in river monitoring. Environmental Pollution 158: 1741-1747
  • Zhang, X., X. Dong & W. Liang (2010). Spatial distribution of soil nematode communities in stable and active sand dunes of Horqin sandy land. Arid Land Research and Management 24: 68-80

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