High temperatures and microplastic enhanced inorganic phosphorus mineralization and phoD-harboring bacterial abundance in paddy soil [0.03%]
高温下微塑料增强水稻土无机磷矿化和含phoD细菌丰度
Muhammad Afzal,Xiyu Tan,Ma Liang Fang et al.
Muhammad Afzal et al.
This study investigates the combined effects of MP contamination and elevated temperatures (29°C and 42°C) on paddy soil nutrient dynamics, rice physiology in heat-sensitive and heat-tolerant genotypes, rhizosphere phoD-harboring bacteria, and microbial community composition in a controlled growth chamber
Drought's physiological footprint: implications for crop improvement in rice [0.03%]
干旱的生理足迹:对水稻改良的意义
Sreevathsa Sagar,Pushpam Ramamoorthy,Suresh Ramalingam et al.
Sreevathsa Sagar et al.
Drought stress alters rice physiology at various stages, from seed germination to grain filling, affecting yield, quality, and nutrient content....Despite progress, challenges persist, including limited understanding of drought's impact on rice physiology under field conditions, inefficient screening methods for drought tolerance, and insufficient attention to drought's effects on rice quality and nutritional content.
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 ...
Zaxinone Synthase overexpression modulates rice physiology and metabolism, enhancing nutrient uptake, growth and productivity [0.03%]
山奈素合酶过表达调控水稻生理和代谢,提升水稻养分吸收、生长和产量
Abdugaffor Ablazov,Muhammad Jamil,Imran Haider et al.
Abdugaffor Ablazov et al.
The rice Zaxinone Synthase (ZAS) gene encodes a carotenoid cleavage dioxygenase (CCD) that forms the apocarotenoid growth regulator zaxinone in vitro. Here, we generated and characterized constitutive ZAS-overexpressing rice lines, to bette...
Effects of sertraline hydrochloride with As(III) or Cd on rhizosphere micro-environment and root endophytes in rice [0.03%]
硫酸盐还原菌介导的Cr(VI)还原受共存重金属和pH的影响
Minling Gao,Huizhen Deng,Youming Dong et al.
Minling Gao et al.
This study investigated the effects of the antidepressant sertraline hydrochloride (Ser-HCI) on rice physiology when combined with arsenic (III) or cadmium.
Probing the effects of silicon amendment on combined stressors on rice: Lead pollution and blast fungus (Magnaporthe oryzae) infection [0.03%]
硅肥缓解铅污染和稻瘟病(Magnaporthe oryzae)对水稻的复合逆境效应研究
Bo Tan,Yue Zeng,Yihan Li et al.
Bo Tan et al.
Herein, this study was conducted to investigate the rice physiology and pathology perspective on the mechanism of Si alleviation against both lead (Pb) toxicity and Magnaporthe oryzae infection, utilizing pot experiments with inoculation of the virulent Magnaporthe oryzae strain.
The endophytic bacterium Bacillus koreensis 181-22 promotes rice growth and alleviates cadmium stress under cadmium exposure [0.03%]
镉暴露下内生细菌 Bacillus koreensis 181-22促进水稻生长并缓解镉胁迫
Xin Zhou,Xiaoqing Liu,Jintong Zhao et al.
Xin Zhou et al.
Moreover, colonization of 181-22 reprogrammed rice physiology to alleviate Cd stress by increasing pigment and total protein content, regulating Cd-induced oxidative stress enzymes such as superoxide dismutase and catalase and reducing malondialdehyde.
Enhancing the chelation capacity of rice to maximise iron and zinc concentrations under elevated atmospheric carbon dioxide [0.03%]
提升大气二氧化碳浓度下水稻螯合能力以提高铁和锌含量的方法
Alexander A T Johnson
Alexander A T Johnson
This review focuses on the effects of carbon dioxide-enrichment on rice physiology and nutritional composition and proposes increased activity of the Strategy II iron uptake pathway as a promising method to maintain or increase iron and zinc concentrations in rice grain, and perhaps cereal grain in general
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...
NOM mitigates the phytotoxicity of AgNPs by regulating rice physiology, root cell wall components and root morphology [0.03%]
NOM通过调节水稻生理、根系细胞壁组分和根系形态来缓解AgNPs的植物毒害作用
Xitong Huang,Yong Li,Ke Chen et al.
Xitong Huang et al.
Natural organic matter (NOM) affects the environmental behaviors of AgNPs, which may change their phytotoxicity to plants. However, more evidence can be provided to illustrate how NOM influences AgNPs-induced phytotoxicity. In this study, u...
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