International Journal of Molecular Ecology and Conservation 2024 Vol.14, No.1, 1-9 http://ecoevopublisher.com/index.php/ijmec 1 Research Report Open Access The Relationship between Genome Stability of Grassland Plants and Ecosystem Immunity PingShan Biotechnology Research Center, Cuixi Academy of Biotechnology, Zhuji, 311800, Zhejiang, China Corresponding author email: 2280551691@qq.com International Journal of Molecular Ecology and Conservation, 2024, Vol.14, No.1 doi: 10.5376/ijmec.2024.14.0001 Received: 02 Nov., 2023 Accepted: 11 Dec., 2023 Published: 01 Jan., 2024 Copyright © 2024 Shan, This is an open access article published under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Preferred citation for this article: Shan P., 2024, Research on the relationship between genome stability of grassland plants and ecosystem immunity, International Journal of Molecular Ecology and Conservation, 14(1): 1-9 (doi: 10.5376/ijmec.2024.14.0001) Abstract This study explores the relationship between the genome stability of grassland plants and the anti-interference ability of ecosystems. Genome stability refers to the stable performance of plant genomes against internal and external pressures, while the anti-interference ability of ecosystems involves their ability to respond to environmental changes and disturbances. This study introduces the concept and measurement methods of genome stability, as well as the definition and composition of ecosystem anti-interference ability. Then, it explores in detail the close relationship between grassland plant genome stability and ecosystem anti-interference ability. Through case studies, the correlation between genome stability and species diversity, ecosystem function, and anti-interference ability was demonstrated. The response of genome stability to environmental change, especially in terms of climate change and habitat destruction, was also discussed. The potential applications of genome stability in ecosystem management and protection were studied, including ecosystem restoration and natural resource management. This study highlights the important relationship between the genome stability of grassland plants and the anti-interference ability of ecosystems, providing scientific basis for future ecological and biodiversity conservation research. Keywords Grassland plants; Genome stability; Immunity; Environmental changes; Ecosystem management 1 Introduction As one of the important ecosystems on Earth, grassland ecosystems not only maintain rich biodiversity, but also play a crucial role in key ecological functions such as global carbon cycling, water cycling, and climate regulation (Xue et al., 2023). However, while grassland ecosystems are facing increasingly serious environmental disturbances and changes, their immunity is also facing challenges. In order to better understand and improve the immunity of grassland ecosystems, researchers are increasingly paying attention to the relationship between plant genome stability and ecosystem immunity. In the past few decades, grassland ecosystems worldwide have been affected by multiple pressures such as climate change, land use change, invasive species, and pollution. These interference factors pose a huge threat to the stability and function of grassland ecosystems, triggering profound attention to the ecosystem immunity (Luo et al., 2022). The ecosystem immunity is an important concept in ecological research, which refers to the stability and resilience of ecosystems to external disturbances. Understanding and enhancing the ecosystem immunity is crucial for maintaining their health and function, as it helps them better maintain balance in the face of stress and change. The purpose of this study is to systematically study the relationship between the stability of grassland plant genomes and the ecosystem immunity, aiming to provide important information about the maintenance and protection of grassland ecosystems for scientists, ecologists, policy makers, and ecosystem managers. Starting from the concept and measurement methods of genome stability, we explore the correlation between grassland plant genome stability and ecosystem immunity, including the impact on species diversity, ecosystem function, and anti-interference ability.
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