AI Article Synopsis
- Deserts act as important carbon reservoirs, but climate change and human activities are threatening these ecosystems, which has consequences for biodiversity and carbon stocks.
- Plant root systems in deserts vary based on their water acquisition strategies, impacting both the biomass of plants and the overall nutrient availability in these environments.
- Effective management practices, such as controlling grazing and using socio-ecological approaches, are essential for preserving desert ecosystems by enhancing carbon retention and improving plant-soil relationships.
Article Abstract
Deserts represent key carbon reservoirs, yet as these systems are threatened this has implications for biodiversity and climate change. This review focuses on how these changes affect desert ecosystems, particularly plant root systems and their impact on carbon and mineral nutrient stocks. Desert plants have diverse root architectures shaped by water acquisition strategies, affecting plant biomass and overall carbon and nutrient stocks. Climate change can disrupt desert plant communities, with droughts impacting both shallow and deep-rooted plants as groundwater levels fluctuate. Vegetation management practices, like grazing, significantly influence plant communities, soil composition, root microorganisms, biomass, and nutrient stocks. Shallow-rooted plants are particularly susceptible to climate change and human interference. To safeguard desert ecosystems, understanding root architecture and deep soil layers is crucial. Implementing strategic management practices such as reducing grazing pressure, maintaining moderate harvesting levels, and adopting moderate fertilization can help preserve plant-soil systems. Employing socio-ecological approaches for community restoration enhances carbon and nutrient retention, limits desert expansion, and reduces CO emissions. This review underscores the importance of investigating belowground plant processes and their role in shaping desert landscapes, emphasizing the urgent need for a comprehensive understanding of desert ecosystems.
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| http://dx.doi.org/10.1111/nph.19676 | DOI Listing |
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