119   Artículos

 
en línea
Rongjin Wang, Xuan Dong, Yan Gao, Fei Hao, Hui Zhang and Guolin Lin    
Salt stress seriously hinders the normal growth of plant seedling roots. Magnesium, as one of the essential medium elements for plant growth, can effectively alleviate the damage of salt stress to plant roots, but the key genes involved and their mechani... ver más
Revista: Agronomy    Formato: Electrónico

 
en línea
Shima Mirzaei, Shirin Moradi, Morteza Karimi, Sara Esmaeili, Nazim S. Gruda and Sasan Aliniaeifard    
The agricultural sector faces challenges due to climate change and the growing global population. Alkaline stress could adversely impact plant growth and crop production. This stressor diminishes water quality essential for crop cultivation, consequently... ver más
Revista: Agronomy    Formato: Electrónico

 
en línea
Theodora Ntanasi, Dimitrios Savvas, Ioannis Karavidas, Evgenia Anna Papadopoulou, Naem Mazahrirh, Vasileios Fotopoulos, Konstantinos A. Aliferis, Leo Sabatino and Georgia Ntatsi    
Soil salinity caused by climate change is a major global issue, especially in regions like the Mediterranean basin. Most commercially cultivated horticultural species, including pepper, are considered to be salt sensitive. However, some underutilized gen... ver más
Revista: Agronomy    Formato: Electrónico

 
en línea
Yuqi Zhou, Shuhao Li, Shengxiang Ran, Yang Xu, Maomao Hou, Mingxuan Han and Fenglin Zhong    
Superoxide dismutase (SOD) is an important antioxidant metalloenzyme present in plants that plays a vital role in plant growth and development, but studies on the SOD gene family in Pakchoi are lacking. In this study, we identified 13 SOD genes from pakc... ver más
Revista: Agronomy    Formato: Electrónico

 
en línea
Hang Ye, Hengzhao Liu, Mian Han, Naiyu Zhang, Xiaolong Feng, Ting Gao, Dingfan Lei, Haochen Li, Zhimei Gao, Yu Su, Min Chai, Huijuan Zhou and Yiling Wang    
Plant NAPDH oxidase (NOX) gene family members are critical producers of ROS and play crucial roles in plant signaling, development, and stress responses. Opisthopappus taihangensis is a pivotal wild genetic resource in Asteraceae. To date, little knowled... ver más
Revista: Agronomy    Formato: Electrónico

 
en línea
Angela Brekalo, Damian Ravetta, Yvonne Thompson and M. Kathryn Turner    
Perennial grains have been proposed as a soil-healthy alternative to annual grains. Intermediate wheatgrass (Thinopyrum intermedium), whose seed is currently sold under the trade name Kernza®, and silflower (Silphium integrifolium), which is in the early... ver más
Revista: Agronomy    Formato: Electrónico

 
en línea
Mireille Asanzi Mvondo-She, Jacob Mashilo, Auges Gatabazi, Ashwell Rungano Ndhlala and Mark Delmege Laing    
Low-temperature stress is an important limiting factor affecting citrus growth and fruit yields. Therefore, increasing citrus cold stress tolerance may enhance the growth, yield, and quality of citrus production in marginal areas. The objective of this s... ver más
Revista: Agronomy    Formato: Electrónico

 
en línea
Vijay Rajamanickam, Kunnummal Kurungara Vinod, Krishnapriya Vengavasi, Tarun Kumar, Viswanathan Chinnusamy and Renu Pandey    
Understanding the changes in the root system architecture of bread wheat under phosphorus (P)-limited conditions is critical for identifying specific traits contributing to improved P uptake. Phenotypic variability in root, biomass, and P index-related t... ver más
Revista: Agriculture    Formato: Electrónico

 
en línea
Koffi Pacome Kouame, Raj Kishan Agrahari, Noren Singh Konjengbam, Hiroyuki Koyama and Yuriko Kobayashi    
Abiotic stress is a major cause of the declining crop yield worldwide, especially in tropical agricultural areas. Meeting the global food demand has become a serious challenge, especially in tropical areas, because of soil acidity, Al and Fe toxicity, dr... ver más
Revista: Agriculture    Formato: Electrónico

 
en línea
Rong Miao, Caijuan Li, Ziliang Liu, Xiangyan Zhou, Sijin Chen, Dan Zhang, Jiaqi Luo, Wenhui Tang, Cuiling Wang, Jiling Wu and Zhengjun Chen    
Plants are vulnerable to many abiotic stresses, resulting in reduced plant productivity. Its adaptation to unfavorable environments relies on transmitting external stress signals into internal signaling pathways. A series of stress response mechanisms ha... ver más
Revista: Agronomy    Formato: Electrónico

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