YOLO-PLNet: a lightweight real-time detection model for peanut leaf diseases based on edge deployment [0.03%]
基于边缘部署的轻量级实时花生叶病害检测模型YOLO-PLNet
Jinti Sun,Zhihui Feng,Jiaqi Han et al.
Jinti Sun et al.
As an important economic crop, peanut is frequently affected by leaf diseases during its growth period, which severely threaten its yield and quality. Therefore, early and accurate disease detection is critical. However, existing lightweigh...
Calculation method of canopy effective volume for fruit tree based on LiDAR point cloud data [0.03%]
基于激光点云的果树冠层有效体积测算方法
Hao Ma,Kexin Wang,Jingyuan Ma et al.
Hao Ma et al.
The canopy volume of fruit trees is an important basis for precise orchard management. However, current methods for predicting canopy volume cannot accurately identify and exclude canopy porosity, resulting in a larger prediction than the a...
Andrey Olegovich Blinkov,Pavel Yuryevich Kroupin,Anna Ruslanovna Dmitrieva et al.
Andrey Olegovich Blinkov et al.
[This corrects the article DOI: 10.3389/fpls.2025.1680955.]. Keywords: accelerated flowering; breeding; dorm...
Published Erratum
Frontiers in plant science. 2025 Nov 17:16:1740157. DOI:10.3389/fpls.2025.1740157 2025
Mechanism of tobacco-sweet potato intercropping in suppressing Ralstonia solanacearum in flue-cured tobacco [0.03%]
烟草-甘薯间作防控烤烟青枯病的作用机制研究进展
Liqian Yang,Yang Liu,Shiping Guo et al.
Liqian Yang et al.
Tobacco bacterial wilt (Ralstonia solanacearum) is a fatal pathogen of tobacco, causing severe losses annually. Intercropping has been proposed as a sustainable strategy to mitigate soil-borne pathogens through rhizosphere interactions. How...
Rethinking de novo genes in plants: mechanisms, methodological progress, and future prospects [0.03%]
从头起源基因在植物中的再思考:机制、方法学进展及未来展望
Man Luo,Haibo Wu,Dinghua Zhan et al.
Man Luo et al.
When genes turn traitor: de novo transcriptomics uncovers pearl millet's rancidity machinery [0.03%]
从头转录组揭示珍珠小米油脂氧化的遗传基础
Ranjeet R Kumar,Suneha Goswami,Vinutha Thimmegowda et al.
Ranjeet R Kumar et al.
Pearl millet flour is highly nutritious but prone to rancidity, leading to off-odor development and reduced shelf life. To understand the molecular basis of this phenomenon, we performed de novo transcriptome sequencing on diverse pearl mil...
Transcriptomic landscapes of ornamental plants under salt and drought stress: key genes and pathways for tolerance [0.03%]
盐胁迫和干旱胁迫下观赏植物的转录组景观:耐受性的关键基因和途径
Alaa A Alaswad
Alaa A Alaswad
Salinity and drought are major ecological stresses that threaten the growth, appearance, and market value of ornamental plants. Transcriptomic studies have revealed the molecular basis of these responses, identifying pathways such as abscis...
Natural expression variation for the Arabidopsis MED20a mediator complex subunit influences quantitative resistance to Sclerotinia sclerotiorum [0.03%]
拟南芥MED20a中介体复合物亚基的自然表达变异影响对Sclerotinia sclerotiorum的定量抗性
William Underwood,Roshan Sharma Poudel
William Underwood
Introduction: The necrotrophic fungus Sclerotinia sclerotiorum is a destructive plant pathogen that can infect a broad range of host plants, including many agriculturally important crop species. Resistance to S. sclerotio...
Predicting the potential distribution of Corylus heterophylla in China under future climate change using an optimized MaxEnt model [0.03%]
基于最大熵模型优化预测气候变化下中国铁核桃潜在分布区研究
Jingyu Wang,Wang Xing,Pengfei Sun et al.
Jingyu Wang et al.
Introduction: Corylus heterophylla is native to East Asia, including northern and central China, southeastern Siberia, eastern Mongolia, Korea, Japan, and other adjacent regions, and its geographical distribution is highl...
LRR-RLK subfamily II of coreceptors: emerging, non-canonical and canonical roles in plant antiviral immunity and development [0.03%]
LRR-RLK II型共受体:植物抗病毒免疫和发育中的新兴、非经典及经典功能
Fellipe R Sampaio,Beatriz M Takagaki,Sâmera S Breves et al.
Fellipe R Sampaio et al.
Coreceptors act together with receptors in the process of signal transduction. Within the LRR-RLK subfamily II, coreceptors play an essential role by serving as a connection between growth and immunity in plants. The 14 LRRII-RLK identified...