Improvement of water-use efficiency of crops using symbiotic microorganisms: A potential sustainable approach to water management in cropping systems
This study focuses on a collection of endophytes comprising plant-living bacteria and yeast isolated from native Salicaceae trees in Washington State of the United States. The article demonstrates the agricultural potential of these endophyte isolates through laboratory and greenhouse experiments conducted under abiotic stress conditions, highlighting their capacity for biological nitrogen fixation (BNF) and other growth-promoting traits. Among the various benefits observed, this article discusses explicitly the enhanced water use efficiency (WUE) observed in host plants that could be utilized in agricultural water management in cropping systems. Elite endophyte strains were carefully selected based on their growthpromoting characteristics, BNF capacity, and in vitro phytohormone production profiling, confirming their ability to synthesize ABA and other hormones. Furthermore, a consortium of these endophytes successfully colonized rice plants and significantly increased biomass under N-limited conditions. In a subsequent study on leaf physiology, rice leaves inoculated with the endophytes exhibited reduced stomatal conductance during the daytime and decreased stomatal density. These responses were likely attributed to increased ABA content in the inoculated plants, resulting in reduced transpiration and improved WUE without compromising photosynthetic capacity. Even with less opening stomata the inoculated rice plants were able to maintain photosynthetic capacity. This may due to re-assimilation of respiratory CO2 from the endophytes. Additionally, the endophytes facilitated electron transfer and CO2 diffusion in rice leaves, particularly under elevated CO2 conditions. These findings suggest that the enhanced WUE conferred by endophytes is closely related to stomatal responses in the host plant. The effects were particularly pronounced under N-limited, drought stress, and elevated CO2 conditions. However, the specific contribution of increased ABA synthesis, CO2 reassimilation, or both remains unclear, necessitating further mechanistic investigation.
知識樹分類
消費者知識庫 > 農藝類
消費者知識庫 > 園藝類
消費者知識庫 > 環境生態類
相關檔案下載
- 50%中性化亞磷酸溶液配方-應用成果115/07/02
- 50%中性化亞磷酸溶液配方-技術優勢115/07/02
- 50%中性化亞磷酸溶液配方-技術介紹115/07/02
- 臺東區農情月刊第317期-蓬萊米百週年,臺東地區稻作跨越世紀的發展里程115/06/29
- 臺東區農情月刊第316期-把小米葉片吃光光的鱗翅目害蟲115/06/29
- 國產雜糧入粽香,端午就吃這一味115/06/11
- 低需水性胡麻的穩產管理115/06/11
- 療育庭園提供休憩、體驗、探索及注意力恢復的空間 提升您的注意力115/06/11
- 水稻田中的假油膜115/06/11
- 電動省工農機具研發應用介紹- 電動圓盤式施肥機115/06/11






