Stage-Specific Effects of Silver Nanoparticles on Physiology During the Early Growth Stages of Rice [0.03%]
银纳米颗粒对水稻生长早期阶段生理的特定影响效应研究
Ruxue Pan,Zailin Zhang,Ya Li et al.
Ruxue Pan et al.
Silver nanoparticles (AgNPs), widely utilized nanomaterials, can negatively affect crop growth and development. However, it remains unclear whether crops exhibit similar responses to AgNPs stress at seed germination and seedling stages. In ...
Nutrient and Water Availability Influence Rice Physiology, Root Architecture and Ionomic Balance via Auxin Signalling [0.03%]
水稻通过生长素信号传导影响营养和水分供应的生理、根系构型及离子平衡研究
Mrinalini Manna,Balakrishnan Rengasamy,Alok Krishna Sinha
Mrinalini Manna
Water and soil nutrients are the vital ingredients of crop production, and their efficient uptake is essentially dependent on root development, majorly regulated by auxin. For a water-loving crop like rice, how water availability regulates ...
24-epibrassinolide as a multidimensional regulator of rice (Oryza sativa) physiological and molecular responses under isoproturon stress [0.03%]
24-表 brassinolide作为多维度调节剂调控异丙隆胁迫下水稻(Oryza sativa)生理和分子响应的作用机制研究
Xiangning Su,Xuesong Liu,Chuanying Li et al.
Xiangning Su et al.
Brassinosteroids (BRs) can regulate various processes in plant development and defense against environmental stress. In this study, the contribution of BRs in the degradation of isoproturon (IPU) in rice has been established. IPU has a sign...
Effects of Silicon and Iron Application on Arsenic Absorption and Physiological Characteristics of Rice (Oryza sativa L.) [0.03%]
硅铁肥施用对水稻砷吸收及生理特性的影响*
Zehui Yang,Zexiao Chen,Na He et al.
Zehui Yang et al.
This study investigated the effects of silicon and iron on arsenic absorption, as well as the changes in the physiological indices of rice under arsenic stress and how these indices respond to silicon and iron. We found that application of ...
Effects of silicon on the uptake and accumulation of arsenite and dimethylarsinic acid in rice (Oryza sativa L.) [0.03%]
硅对水稻(Oryza sativa L.)砷酸盐和二甲基砷酸摄取及累积的影响
Zixiang Gao,Xianjin Tang,Mujun Ye et al.
Zixiang Gao et al.
Accumulation of arsenite [As(III)] and dimethylarsinic acid (DMA) in rice grainsposes a threat to human health. Although silicon (Si) has been reported to reduce As uptake, the mechanisms involved are not fully understood. In this study, we...
Transcriptomic and physiological analysis of OsCAO1 knockout lines using the CRISPR/Cas9 system in rice [0.03%]
利用CRISPR/Cas9系统对水稻OsCAO1基因敲除品系进行转录组和生理分析
Yu Jin Jung,Hyo Ju Lee,Jihyeon Yu et al.
Yu Jin Jung et al.
The altered rice leaf color based on the knockout of CAO1 gene generated using CRISPR/Cas9 technology plays important roles in chlorophyll degradation and ROS scavenging to regulate both natural and induced senescence in rice. Rice chloroph...
Effects of fenclorim on rice physiology, gene transcription and pretilachlor detoxification ability [0.03%]
fenclorim对水稻生理、基因转录及稻病隆解毒能力的影响
Lifeng Hu,Ying Yao,Ruwen Cai et al.
Lifeng Hu et al.
Background: Fenclorim (Fen) can effectively protect rice from pretilachlor (Pre) injury, but its effects on rice have not been formally evaluated; thus, the Fen mode of action for alleviating the phytotoxicity caused by P...
Bacillus amyloliquefaciens inoculation alters physiology of rice (Oryza sativa L. var. IR-36) through modulating carbohydrate metabolism to mitigate stress induced by nutrient starvation [0.03%]
枯草芽孢杆菌接种通过调节碳水化合物代谢来缓解营养缺乏胁迫下水稻(IR-36)的生理变化
Nikita Bisht,Shashank Kumar Mishra,Puneet Singh Chauhan
Nikita Bisht
To avoid disproportionate usage of chemicals in agriculture, an alternative eco-friendly strategy is required to improve soil fertility, and enhance crop productivity. Therefore, the present study demonstrates the role of plant beneficial r...
Physiological mechanisms of exogenous calcium on alleviating salinity-induced stress in rice (Oryza sativa L.) [0.03%]
外源钙素调控水稻耐盐性的生理机制研究进展
Popy Rani Roy,Md Tahjib-Ul-Arif,Mohammed Arif Sadik Polash et al.
Popy Rani Roy et al.
Being more sensitive to salt stress among the cereals, growth of rice (Oryza sativa L.) has been habitually affected by salinity. Although, several practices have evolved to sustain the growth of rice under salinity, the enormous role of ca...
Shoot-Root Communication Plays a Key Role in Physiological Alterations of Rice (Oryza sativa) Under Iron Deficiency [0.03%]
铁缺乏条件下水稻(Oryza sativa)生理变化与shoot-root通讯的关系
Lin Chen,Gaopeng Wang,Pengfei Chen et al.
Lin Chen et al.
Iron (Fe) is an essential mineral element required for plant growth, and when soil availability of Fe is low, plants show symptoms of severe deficiency. Under conditions of Fe deficiency, plants alter several processes to acquire Fe from so...
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