放射根植物
弗兰基亚
固氮
共生
根瘤菌
生态系统
生物
全球变化
气候变化
氮气循环
生态学
互惠主义(生物学)
固氮酶
环境科学
环境变化
农学
陆地生态系统
亚热带
草地生态系统
植物生长
农林复合经营
全球变暖
持续性
植物
土壤水分
土壤生物学
作者
Tong Peng,Heinz Rennenberg,Bin Hu
摘要
) for their growth and development. Like other enzymatic processes in roots, the efficiency of SNF is highly dependent on soil temperature. Since global atmospheric temperature change also affects soil temperature, it is essential to know the temperature response of different types of plant-microbial symbioses capable of SNF at the molecular, physiological, and ecosystem levels on air and soil temperature changes. This is of particular significance, because the ability of nitrogen-fixing microbial symbionts to deal with temperature changes in the soil can affect growth and development of legumes and actinorhizal plants and, hence, the sustainability of ecosystems in a changing climate. However, temperature response may differ between different groups of nitrogen-fixing microbial symbionts (e.g., rhizobia vs. Frankia) and between different strains of the same microbial symbiont. In the present review, we summarize current knowledge on the temperature response of SNF, describe unexplored research topics, and propose future basic and applied research avenues under controlled conditions and in field studies. It provides a holistic view on the subject to encourage interdisciplinary research on this subject which has been largely neglected during the last decades, but of increasing significance due to global climate change.
科研通智能强力驱动
Strongly Powered by AbleSci AI