Soil fauna plays an important role for delivering ecosystem services, such as food production, climate mitigation and soil erosion. However, land-use changes can alter the characteristics of soil fauna communities which could affect the functioning of the ecosystems. Research into anthropogenic effects on soil has grown in recent decades. After this data generation, there is a need to synthesize land-use effect on soil biodiversity in order to identify general patterns. We conducted a meta-analysis to assess the effect of land- use changes on the abundance, richness and diversity of soil invertebrates. We performed a search in online databases to find studies comparing soil invertebrate communities in reference/natural sites (primary and se...
Land degradation reducing vegetation cover may affect the soil surface-active fauna because both abo...
Soil biodiversity plays a key role in regulating the processes that underpin the delivery of ecosyst...
Soil biodiversity plays a key role in regulating the processes that underpin the delivery of ecosyst...
Human impacts are causing an unprecedented change of biodiversity across scales. To quantify the nat...
Human impacts are causing an unprecedented change of biodiversity across scales. To quantify the nat...
Climate change and land use intensification are the two most common global change drivers of biodive...
Soil fauna communities are an important component of soil biodiversity, which is key to myriad terre...
Declines in biological diversity due to the expansion and intensification of agriculture have genera...
Soil fauna plays a key role in many soil functions, such as organic matter decomposition, humus form...
Anthropogenic land use is an established driver of biodiversity loss. The complexity and far-reachin...
The interactions between soil invertebrates and land use and management are fundamental for soil qua...
Human activities, particularly land-use change and habitat degradation, are driving major changes in...
Land use intensification in forests is a main driver of global biodiversity loss. Although historica...
Belowground biodiversity loss from anthropogenic causes is far less addressed and quantified than ab...
Land use intensification in forests is a main driver of global biodiversity loss. Although historica...
Land degradation reducing vegetation cover may affect the soil surface-active fauna because both abo...
Soil biodiversity plays a key role in regulating the processes that underpin the delivery of ecosyst...
Soil biodiversity plays a key role in regulating the processes that underpin the delivery of ecosyst...
Human impacts are causing an unprecedented change of biodiversity across scales. To quantify the nat...
Human impacts are causing an unprecedented change of biodiversity across scales. To quantify the nat...
Climate change and land use intensification are the two most common global change drivers of biodive...
Soil fauna communities are an important component of soil biodiversity, which is key to myriad terre...
Declines in biological diversity due to the expansion and intensification of agriculture have genera...
Soil fauna plays a key role in many soil functions, such as organic matter decomposition, humus form...
Anthropogenic land use is an established driver of biodiversity loss. The complexity and far-reachin...
The interactions between soil invertebrates and land use and management are fundamental for soil qua...
Human activities, particularly land-use change and habitat degradation, are driving major changes in...
Land use intensification in forests is a main driver of global biodiversity loss. Although historica...
Belowground biodiversity loss from anthropogenic causes is far less addressed and quantified than ab...
Land use intensification in forests is a main driver of global biodiversity loss. Although historica...
Land degradation reducing vegetation cover may affect the soil surface-active fauna because both abo...
Soil biodiversity plays a key role in regulating the processes that underpin the delivery of ecosyst...
Soil biodiversity plays a key role in regulating the processes that underpin the delivery of ecosyst...
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