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Data from: Plant community evenness responds to spatial plant-soil feedback heterogeneity primarily through the diversity of soil conditioning
- 负责人:
- DOI:
- doi:10.5061/dryad.11d82
- 摘要:
- 1.Plant-soil feedback (PSF) has been identified as a key driver of local plant diversity and evenness in competitive communities. Howeve
Data from: Legacy effects of diversity in space and time driven by winter cover crop biomass and nitrogen concentration
- 负责人:
- Barel, Janna
- 关键词:
- crop rotation soil organic matter soil mineral nitrogen plant-feeding nematodes plant-soil feedback plant productivity agroecology winter cover crops agriculture plant diversity
- DOI:
- doi:10.5061/dryad.sp21b
- 摘要:
- Plant diversity can increase nitrogen cycling and decrease soil-borne pests, which are feedback mechanisms influencing subsequent plant growth
Data from: Relative importance of competition and plant-soil feedback, their synergy, context dependency and implications for coexistence
- 负责人:
- 关键词:
- DOI:
- doi:10.5061/dryad.487fq3m
- 摘要:
- Plants interact simultaneously with each other and with soil biota, yet the relative importance of competition versus plant soil feedback (PSF
Data from: Remote sensing of plant trait responses to field-based plant–soil feedback using UAV-based optical sensors
- 负责人:
- De Deyn, Gerlinde B.
- 关键词:
- plant-soil feedback soil legacy treatment discrimination high-resolution hyperspectral imagery UAV remote sensing plant height biomass nitrogen leaf chlorophyll
- DOI:
- doi:10.5061/dryad.75k1d
- 摘要:
- Plant responses to biotic and abiotic legacies left in soil by preceding plants is known as plant–soil feedback (PSF). PSF is an important mechanism
Data from: Contrasting per-gram competitive and soil resource effects in grasses and woody plants
- 负责人:
- DOI:
- doi:10.5061/dryad.76hdr7st9
- 摘要:
- cts on soil resources. These differences may contribute to the entrainment of negative feedback in grasslands, excluding trees by means of strong competition
Data from: Testing the plant growth-defense hypothesis belowground: do faster-growing herbaceous plant species suffer more negative effects from
- 负责人:
- DOI:
- doi:10.5061/dryad.49s82
- 摘要:
- defense. To test whether faster-growing species suffer more negatively from soil biota than slower-growing species, we estimated first-season growth rates
Data from: Large, climate-sensitive soil carbon stocks mapped with pedology-informed machine learning in the North Pac
- 负责人:
- DOI:
- doi:10.5061/dryad.5jf6j1r
- 摘要:
- Accurate soil organic carbon (SOC) maps are needed to predict the terrestrial SOC feedback to climate change, one of the largest remaining
Data from: Feedbacks between nitrogen fixation and soil organic matter increase ecosystem functions in diversified agroecosystems
- 负责人:
- jblesh@umich.edu, Jennifer Blesh
- 关键词:
- agroecosystem biological nitrogen fixation cover crop mineralization particulate organic matter soil carbon soil organic matter
- DOI:
- doi:10.5061/dryad.70q4744
- 摘要:
- with two seasons of a legume-grass cover crop mixture, which could enhance this stabilizing feedback between soil N availability and N2 fixation over time. These res
Data from: Within-species tradeoffs in plant-stimulated soil enzyme activity and growth, flowering and seed size
- 负责人:
- DOI:
- doi:10.5061/dryad.1h268g3
- 摘要:
- microbiome, potentially resulting in beneficial feedbacks that alter their fitness and establishment. For example, differences in the ability to stimulate
Data from: Dryland soils in northern China sequester carbon during the early-2000s warming hiatus period
- 负责人:
- 关键词:
- DOI:
- doi:10.5061/dryad.v2j62h1
- 摘要:
- is crucial to evaluate terrestrial C-climate feedback. However, credible understanding on this issue is still greatly limited by the lack of direct observation