Anthropogenic conversion of natural to agricultural land reduces aboveground biodiversity. Yet, the overall consequences of land-use changes on belowground biodiversity at large scales remain insufficiently explored. Furthermore, the effects of conversion on different organism groups are usually determined at the taxonomic level, while an integrated investigation that includes functional and phylogenetic levels is rare and absent for belowground organisms. Here, we studied the Earth's most abundant metazoa—nematodes—to examine the effects of conversion from natural to agricultural habitats on soil biodiversity across a large spatial scale. To this aim, we investigated the diversity and composition of nematode communities at the taxonomic, f...
An emerging research line in conservation ecology addresses how environmental change drivers may cau...
Aim: Increasing aridity under global change is predicted to have a profound impact on the structure ...
Aims Soil nematodes, as key bioindicators, play crucial roles in soil ecological process. Management...
Abstract Anthropogenic conversion of natural to agricultural land reduces aboveground biodiversity. ...
Anthropogenic activities are supposed to reduce global biodiversity and negatively influence the dev...
Soil nematodes are important contributors to soil biodiversity. Nonetheless, the distribution patter...
Aim: Increasing aridity under global change is predicted to have a profound impact on the structure ...
Nematodes are the most abundant multi-cellular animals in soil, influencing key processes and functi...
Purpose Understanding the impact of neighbor tree diversity on soil biodiversity at the individual t...
Anthropogenic land use is threatening global biodiversity. As one of the most abundant animals on Ea...
Agricultural intensification is known to impact the soil biota community. In a previous study, the i...
Soil nematode is an essential component of the soil micro-food web and plays an important role in so...
Aim To assess how the diversity of above- and below-ground organisms changes along environmental gra...
Forest recovery has been extensively evaluated using plant communities but fewer studies have been c...
Abstract The ecosystem services that humans obtain from the soil are strongly linked to the soil's b...
An emerging research line in conservation ecology addresses how environmental change drivers may cau...
Aim: Increasing aridity under global change is predicted to have a profound impact on the structure ...
Aims Soil nematodes, as key bioindicators, play crucial roles in soil ecological process. Management...
Abstract Anthropogenic conversion of natural to agricultural land reduces aboveground biodiversity. ...
Anthropogenic activities are supposed to reduce global biodiversity and negatively influence the dev...
Soil nematodes are important contributors to soil biodiversity. Nonetheless, the distribution patter...
Aim: Increasing aridity under global change is predicted to have a profound impact on the structure ...
Nematodes are the most abundant multi-cellular animals in soil, influencing key processes and functi...
Purpose Understanding the impact of neighbor tree diversity on soil biodiversity at the individual t...
Anthropogenic land use is threatening global biodiversity. As one of the most abundant animals on Ea...
Agricultural intensification is known to impact the soil biota community. In a previous study, the i...
Soil nematode is an essential component of the soil micro-food web and plays an important role in so...
Aim To assess how the diversity of above- and below-ground organisms changes along environmental gra...
Forest recovery has been extensively evaluated using plant communities but fewer studies have been c...
Abstract The ecosystem services that humans obtain from the soil are strongly linked to the soil's b...
An emerging research line in conservation ecology addresses how environmental change drivers may cau...
Aim: Increasing aridity under global change is predicted to have a profound impact on the structure ...
Aims Soil nematodes, as key bioindicators, play crucial roles in soil ecological process. Management...