Cultivation factors affecting durum wheat performance under speed breeding conditions [0.03%]
速生条件下影响杜兰硬质小麦表现的栽培因素分析
Merve Bayhan,Remzi Özkan,Önder Albayrak et al.
Merve Bayhan et al.
Introduction: This study examined the effects of pot size, soil type, fertilizer x dose interactions, and foliar fertilizer application on wheat growth under speed breeding conditions. ...
Water stress effect on hydraulic architecture, biomass partitioning, and gas exchange of four different olive cultivars [0.03%]
四种不同橄榄品种的水分胁迫对其液压架构、生物量分配和气体交换的影响
Valeria Imperiale,Tiziano Caruso,Antonino Ioppolo et al.
Valeria Imperiale et al.
Olea europaea L. is considered a very resilient species to water deficits. Climate change, characterized by warmer summers and drier winters, may challenge even this adaptable species, potentially making once-suitable areas less viable for ...
Molecular detection tool for prompt, reliable and precise diagnosis of the rice weevil, Sitophilus oryzae (Linnaeus) infestation in wheat [0.03%]
一种用于快速、可靠和精确诊断谷蠹Sitophilus oryzae(L.)小麦受害情况的分子检测技术
Kanika Nagpal,Poonam Jasrotia,Maha Singh Jaglan et al.
Kanika Nagpal et al.
The rice weevil (Sitophilus oryzae L.) is one of the most destructive pests of stored cereal grains, particularly wheat, leading to considerable post-harvest losses and posing serious threats to global food security and international trade....
Editorial: The dynamic plant cell wall: sensing, remodelling, and integrity [0.03%]
动态的植物细胞壁:感受、重塑和完整性
Laura Bacete
Laura Bacete
Quantifying hygroscopic deformation in lignocellulosic tissues: a digital volume correlation tool comparison [0.03%]
木质纤维素组织中吸湿变形的量化:数字体积相关工具比较
Kim Ulrich,Fabian Scheckenbach,Tak Ming Wong et al.
Kim Ulrich et al.
Digital Volume Correlation (DVC) was used to study the hygroscopic shrinkage in lignocellulosic tissues. For this, small tissue segments of only a few cells were prepared from the endocarp of Hura crepitans fruits, the sclereid cell layer o...
Full-time sequence assessment of okra seedling vigor under salt stress based on leaf area and leaf growth rate estimation using the YOLOv11-HSECal instance segmentation model [0.03%]
基于YOLOv11-HSECal实例分割模型的叶面积和叶片生长速率估算下盐胁迫对秋葵幼苗活力的全时序评估
Xiaowei Cao,Yifan Li,Yaben Zhang et al.
Xiaowei Cao et al.
Introduction: With the growing severity of global salinization, assessing plant growth vitality under salt stress has become a critical aspect in agricultural research. ...
Spatial metabolic heterogeneity of sugar-acid balance and pigment accumulation in distinct color regions of Yanzhihong apricot (Prunus armeniaca L.) revealed by MALDI-IMS [0.03%]
基于基质辅助激光解吸电离成像质谱的 Yanzhihong 苹果蜜桃甜酸比及色素分布的空间代谢异质性分析
Yang Zhao,Yanhong He,Weiyuan Xing et al.
Yang Zhao et al.
This study is the first to apply spatial metabolomics techniques, MALDI-IMS to investigate differential distributions of sugars, organic acids, and pigments in the red and yellow regions of Yanzhihong apricot fruit. PCA and OPLS-DA analyses...
Comparative analysis of cranberry fruit rot fungal diversity in Massachusetts from wild, organic, and conventional ecosystems using multiplex PCR [0.03%]
基于多重PCR的美国马萨诸塞州不同生态系统(野生、有机和传统)蔓越莓果腐病原真菌多样性比较分析
Salisu Sulley,Mura Jyostna Devi,Benjamin Cinget et al.
Salisu Sulley et al.
Cranberry fruit rot (CFR) has been a major challenge in cranberry production affecting fruit quality, particularly in Massachusetts and New Jersey. It is known to be a disease complex associated with several diverse fungi. This study provid...
Opinionated views on biophysical and social constraints on agroforestry system [0.03%]
偏见下的农业林业系统生物物理和社会制约观点
Xinjie Zha,Zhijie Zhang
Xinjie Zha
Corrigendum: Testcross performance and combining ability of intermediate maturing drought tolerant maize inbred lines in Sub-Saharan Africa [0.03%]
非洲中间生育期抗旱玉米自交系的测交性能和配合力研究的勘误公告
Kulai Amadu Manigben,Yoseph Beyene,Vijay Chaikam et al.
Kulai Amadu Manigben et al.
[This corrects the article DOI: 10.3389/fpls.2024.1471041.]. Keywords: drought; general combining ability; g...
Published Erratum
Frontiers in plant science. 2025 Aug 14:16:1627898. DOI:10.3389/fpls.2025.1627898 2025