Transcriptomic-proteomic analysis reveals the regulatory mechanisms of Alfalfa (Medicago sativa) in response to Fusarium acuminatum [0.03%]
转录组与蛋白质组联合分析揭示了鹰嘴豆对尖孢镰刀菌胁迫响应的调控机制
Zhidan Shi,Hongxia Sun,Lifen Hao et al.
Zhidan Shi et al.
Alfalfa (Medicago sativa) is the most widely cultivated and important forage crop worldwide, owing to its high protein content. However, alfalfa Fusarium root rot seriously affects and restricts the yield and quality. This study explores th...
Attention-enhanced hybrid deep learning model for robust mango leaf disease classification via ConvNeXt and vision transformer fusion [0.03%]
基于ConvNeXt和视觉变压器融合的注意力增强混合深度学习模型用于芒果叶病害鲁棒分类
Ebru Ergün
Ebru Ergün
Mango is a crop of vital agronomic and commercial importance, particularly in tropical and subtropical regions. Accurate and timely identification of foliar diseases is essential for maintaining plant health and ensuring sustainable agricul...
Effects of nitrogen application amount on nitrogen distribution and photosynthesis in tea leaves [0.03%]
氮肥用量对茶叶氮素分配及光合作用的影响
Kai Li,Dong-Na Liu,Lan-Ying Li et al.
Kai Li et al.
Nitrogen is the most essential nutrient for plant growth and serves as a key limiting factor in overall plant development. Photosynthesis is the primary process for energy capture in the biosphere, and its effectiveness is significantly inf...
Editorial: Nutrients recycling in hydroponics: opportunities and challenges toward sustainable crop production under controlled environment agriculture, volume II [0.03%]
简讯:水培中的营养物质循环:面向可控环境农业作物生产的机遇与挑战(第二卷)
Md Asaduzzaman,Toshiki Asao
Md Asaduzzaman
Qiqi Di,Wenqian Han,Yujie Han et al.
Qiqi Di et al.
[This corrects the article DOI: 10.3389/fpls.2025.1625939.]. Keywords: Lemna turionifera 5511; growth regul...
Published Erratum
Frontiers in plant science. 2025 Aug 1:16:1663336. DOI:10.3389/fpls.2025.1663336 2025
Retraction: COP9 signalosome CSN4 and CSN5 subunits are involved in jasmonate-dependent defense against root-knot nematode in tomato [0.03%]
撤稿:泛素化调节因子COP9信号体CSN4和CSN5亚基参与茉莉酸依赖的根结线虫抗性反应
Frontiers Editorial Office
Frontiers Editorial Office
[This retracts the article DOI: 10.3389/fpls.2019.01223.]. Copyright © 2025 Frontiers Editorial Office.
Foliar nutrient diagnosis in Paeonia ostii: an integrated DRIS-RN-CND approach for the fruit expansion stage [0.03%]
丹参叶部营养诊断:花芽分化期树体氮素盈亏与叶片光合生产能力的关系研究
MingWei Zhu,Wei Zhao,Yu Duan et al.
MingWei Zhu et al.
Introduction: Foliar nutrient diagnosis can facilitate an understanding of plant nutrient status, enabling the implementation of precise fertilization programs. As an emerging woody oil crop, Paeonia ostii, requires press...
Mechanistic insights into nutrient profiles, cellulose, and hemicellulose dynamics in red and green Toona sinensis buds during cold storage [0.03%]
冷贮藏期间红绿苦柚芽营养成分、纤维素和半纤维素动态变化的机制研究
Guo-Fei Tan,Qian Zhao,Fu Wang et al.
Guo-Fei Tan et al.
Toona sinensis (T. sinensis) is a popular woody vegetable with distinct red and green varieties in China. Despite its significance, research on the comparative nutrient composition profiles and cellulose and hemicellulose dynamics between t...
Genome-wide identification, characterization, and expression analysis of the SOS1 gene family in the medicinal plant Paeonia ostii under salt stress [0.03%]
盐胁迫下牡丹SOS1基因家族的全基因组鉴定、特征及表达分析
Yahong Chen,Huabing Liang,Zhanchang Wang et al.
Yahong Chen et al.
Paeonia ostii is a commercially important ornamental and traditional medicinal plant esteemed in China. Salt stress is a widespread abiotic stress that significantly affects plant growth and development, and moderate stress can significantl...
Correction: Mechanistic insights into nutrient profiles, cellulose, and hemicellulose dynamics in red and green Toona sinensis buds during cold storage [0.03%]
订正:Toona sinensis芽在冷藏过程中营养成分、纤维素及半纤维素的动力学变化及机理探究
Frontiers Production Office
Frontiers Production Office
[This corrects the article DOI: 10.3389/fpls.2025.1518924.]. Keywords: T. sinensis buds; cold storage; cytol...
Published Erratum
Frontiers in plant science. 2025 Jul 30:16:1668927. DOI:10.3389/fpls.2025.1668927 2025