The diversity of soil communities, the ?poor man's tropical rainforest?
about
Influence of Soil Properties on Soldierless Termite DistributionPhylogeny, phylogeography, phylobetadiversity and the molecular analysis of biological communitiesHow anthropogenic changes may affect soil-borne parasite diversity? Plant-parasitic nematode communities associated with olive trees in Morocco as a case studyDoes plant species co-occurrence influence soil mite diversity?Are soil mite assemblages structured by the identity of native and invasive alien grasses?Trees as templates for tropical litter arthropod diversity.Isolating fungal pathogens from a dynamic disease outbreak in a native plant population to establish plant-pathogen bioassays for the ecological model plant Nicotiana attenuata.Bacterial diversity promotes community stability and functional resilience after perturbation.Changes in soil microbial community structure influenced by agricultural management practices in a mediterranean agro-ecosystem.Distinct bacterial communities dominate tropical and temperate zone leaf litter.Evaluating a multigene environmental DNA approach for biodiversity assessmentSpecies traits and environmental characteristics together regulate ant-associated biodiversityHunting for Wasps In-between: the Use of the Winkler Extractor to Sample Leaf Litter Hymenoptera.Tracking the flow of bacterially derived 13C and 15N through soil faunal feeding channels.Highly consistent effects of plant litter identity and functional traits on decomposition across a latitudinal gradient.Are we ready to detect nematode diversity by next generation sequencing?Regional factors rather than forest type drive the community structure of soil living oribatid mites (Acari, Oribatida).Effects of Consumption of Bt-maize (MON 810) on the Collembolan Folsomia candida, Over Multiple Generations: A Laboratory StudyAnts as ecological indicators of rainforest restoration: Community convergence and the development of an Ant Forest Indicator Index in the Australian wet tropics.Do fungivores trigger the transfer of protective metabolites from host plants to arbuscular mycorrhizal hyphae?Habitat associations of two entomopathogenic nematodes: a quantitative study using real-time quantitative polymerase chain reactions.Population dynamics and identification of efficient strains of Azospirillum in maize ecosystems of Bihar (India).Effects of poisoning nonindigenous slugs in a boreal forestRole of Arthropods in Maintaining Soil FertilityRoad edge effects on litter invertebrate communities of subtropical forestsImpacts of eucalypt plantation management on soil faunal communities and nutrient bioavailability: trading function for dependence?Effects of spatial heterogeneity and subsample pooling on the measurement of abiotic and biotic soil properties in rainforest, pasture and reforested sitesPersistence of the threatened Knysna warbler Bradypterus sylvaticus in an urban landscape: do gardens substitute for fire?Reducible defence: chemical protection alters the dynamics of predator–prey interactionsLitter elemental stoichiometry and biomass densities of forest soil invertebrates
P2860
Q28547240-3AB5647E-504F-49BD-88E7-1E94B5C93FB5Q28742895-73E25A1B-D63A-42BF-9494-475607BAF54DQ28817374-12F4677D-7C9D-445D-B485-B6ABDF0C4620Q33239230-4BA8DB96-5F2E-4293-9FED-BA0A05AAA30DQ33246145-DEE6746A-05D8-4615-B50F-7013B1DCC723Q33547055-CF5F1410-CE29-4BB9-84A8-1375E34570BBQ33921529-CD361C3D-5680-4897-BBC2-CD264AAFB4DDQ34389728-BD530C81-51DA-4E80-9CE3-0212B0867114Q35049075-9E2CFA0D-3D70-44F9-BC41-7CEC2D889EB8Q35096999-94152469-2144-4988-AD2B-F11C439CA212Q36126711-1FABF237-1138-4403-A13E-CC243CABDE1DQ36137951-A0593482-749C-4BA7-ADC2-3866DFFD8C02Q36365035-1E45DAB5-5642-40C5-B578-3A1104CD0B21Q38956824-B4987B27-9F91-43AE-A06E-2A69DBFF1F8CQ39207064-FC271652-9C60-4D7E-B5CA-979C8B3B329AQ41085684-925ADB8D-AF40-45A4-863C-8DFFEA10FA16Q41849457-E604319B-490A-4637-A43D-C85429EAD7B2Q42213204-376C18FE-3DA0-4451-BE42-9C6FCD4F9161Q42659609-273C0444-6B61-432C-B4F9-1CA71A370FC2Q45368171-1D8DBA8C-C635-491B-B8F2-F1EDF468A5FFQ51713214-FE01CD36-6A8E-4FBB-A4E0-1AC0A964026FQ52981676-BD245D70-EE9A-4076-9277-88182F951A5CQ55870356-F7B392CB-34B3-48E8-9136-938F9E22E37CQ56031088-AA6E675D-68E4-4D4C-BAC1-93102E363317Q56525732-5449A778-840E-4E31-886A-F2B71A748D7AQ56827810-591F0C25-6C53-40BC-BC43-8D7357FC86DAQ57067151-42955C3A-42B4-42E6-820A-879851A9E8B8Q57228876-A34E6E40-4B0C-4794-A60C-706D91A68CF8Q59219968-61BBE37B-3EDF-4ACF-9DDE-6AACE42D314CQ59219983-EAC5C30F-CA11-492D-95A4-22C92FEE307C
P2860
The diversity of soil communities, the ?poor man's tropical rainforest?
description
im Februar 1996 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в лютому 1996
@uk
name
The diversity of soil communities, the ?poor man's tropical rainforest?
@en
The diversity of soil communities, the ?poor man's tropical rainforest?
@nl
type
label
The diversity of soil communities, the ?poor man's tropical rainforest?
@en
The diversity of soil communities, the ?poor man's tropical rainforest?
@nl
prefLabel
The diversity of soil communities, the ?poor man's tropical rainforest?
@en
The diversity of soil communities, the ?poor man's tropical rainforest?
@nl
P356
P6366
P1476
The diversity of soil communities, the ?poor man's tropical rainforest?
@en
P2093
Paul S. Giller
P2888
P304
P356
10.1007/BF00055827
P577
1996-02-01T00:00:00Z
P6366
2040677513