Results 61 to 70 of about 29,123 (253)

Climate change effects on biomass and greenhouse gas emissions are ameliorated by nontoxic endophytes in southeastern USA transition zone tall fescue pastures

Grassland Research, EarlyView.
Tall fescue produces more biomass and less carbon dioxide from the soil when it contains its beneficial fungal endophyte. Increased temperatures projected with climate change reduce fescue biomass, while altered rainfall frequency does not. Altering rainfall frequency and increasing temperatures can reduce carbon dioxide emissions from soil.
Rebecca K. McGrail, Jonathan D. Moore, A. Elizabeth Carlisle, Jim A. Nelson, Rebecca L. McCulley   +4 more
wiley   +1 more source

Taxonomic and Functional Diversity of Rhizosphere Microbiome Recruited From Compost Synergistically Determined by Plant Species and Compost

Frontiers in Microbiology, 2022
Compost is frequently served as the first reservoir for plants to recruit rhizosphere microbiome when used as growing substrate in the seedling nursery.
Ning Wang, Ning Wang, Huixiu Li, Huixiu Li, Bo Wang, Jia Ding, Jia Ding, Yingjie Liu, Yuquan Wei, Yuquan Wei, Ji Li, Ji Li, Guo-Chun Ding, Guo-Chun Ding   +13 more
doaj   +1 more source

Shifts in the bacterial community composition along deep soil profiles in monospecific and mixed stands of Eucalyptus grandis and Acacia mangium [PDF]

, 2017
Our knowledge of the rhizosphere bacterial communities in deep soils and the role of Eucalyptus and Acacia on the structure of these communities remains very limited.
Avelino Maia de Andrade, Pedro, Bini, Daniel, Bouillet, Jean-Pierre, Bran Nogueira Cardoso, Elke Jurandy, de Araujo Pereira, Arthur Prudêncio, Dini Andreote, Fernando, Durrer, Ademir, Robin, Agnès   +7 more
core   +2 more sources

Functionally complementary bacterial inoculant coordinates arbuscular mycorrhizal fungi to improve Angelica sinensis root yield and quality

iMetaOmics, EarlyView.
Comprehensive understanding of how diverse PGPR strains enhance the rhizosphere microenvironment remains a considerable challenge. Here, we provide experimental evidence that a functionally synergistic composite microbial formulation can markedly enhance growth performance and improve the quality attributes in Angelica sinensis.
Zongyu Zhang, Yun Wang, Jiecai Zhao, Gaofeng Chen, Andéole Niyongabo Turatsinze, Liang Yue, Yuan Tian, Xiaofan Xie, Ailing Ye, Meilan Zhang, Lingling Wu, Zengxiang Guo, Yubao Zhang, Ruoyu Wang   +13 more
wiley   +1 more source

A preliminary examination of the bacterial, archaeal, and fungal rhizosphere microbiome in healthy and Phellinus noxius‐infected trees

MicrobiologyOpen, 2020
Phellinus noxius is a pathogenic fungus that causes brown root rot disease, resulting in a widespread tree and crop mortality in the tropics and subtropics.
Karen Sze Wing Tsang, Man Kit Cheung, Regent Yau Ching Lam, Hoi Shan Kwan   +3 more
doaj   +1 more source

Investigation of soil nutrients and associated rhizobacterial communities in different sugarcane genotypes in relation to sugar content

Chemical and Biological Technologies in Agriculture, 2021
Background Plant microbiomes and soil are bridged by rhizobacteria, maintaining and improving plant health and growth in different aspects. This study was conducted in the field station of the Guangxi University, Fusui, China.
Abdullah Khan, Ziting Wang, Zhengxia Chen, Junyao Bu, Muhammad Adnan, Muqing Zhang   +5 more
doaj   +1 more source

Visualizing the Hidden Half: Plant-Microbe Interactions in the Rhizosphere

mSystems, 2021
Plant roots and the associated rhizosphere constitute a dynamic environment that fosters numerous intra- and interkingdom interactions, including metabolite exchange between plants and soil mediated by root exudates and the rhizosphere microbiome.
Pubudu P. Handakumbura, Albert Rivas Ubach, Anil K. Battu   +2 more
doaj   +1 more source

Challenges and opportunities for quantifying roots and rhizosphere interactions through imaging and image analysis [PDF]

, 2014
The morphology of roots and root systems influences the efficiency by which plants acquire nutrients and water, anchor themselves and provide stability to the surrounding soil. Plant genotype and the biotic and abiotic environment significantly influence
Abbas-Zadeh, Adu, al Hagrey, Amato, Armengaud, Asseng, Bailey, Balasubramanian, Baldwin, Bao, Barton, Basu, Bates, Batey, Bauer, Beemster, Bengough, Bengough, Bengough, Benjamin, Berendsen, Bingham, Bloemberg, Blossfeld, Blossfeld, Blossfeld, Blossfeld, Bohn, Bois, Bottomley, Bougourd, Bovina, Brady, Brooks, Brown, Bruand, Burton, Burton, Caldwell, Carminati, Carminati, Carminati, Chaparro, Chapman, Clark, Clark, Clark, Clark, Czarnes, Czymmek, Dai, Dannoura, Darwin, Dechamps, Delhaize, Delin, Den Herder, Dhondt, Dietrich, Dixit, Dong, Donner, Downie, Downie, Draye, Dubrovsky, Duncan, Ehlers, Eickhorst, Faget, Faget, Faget, Fang, Fang, Federici, Fiorani, Fisher, Frangi, French, French, Gage, Galkovskyi, Gamalero, Garbout, Gasch, Genre, George, Goh, Gomiero, Gregory, Gregory, Gregory, Grose, Grzesiak, Hainsworth, Haling, Hammond, Hamza, Hamza, Hapca, Harris, Haynes, Heeraman, Herrera, Hiltner, Houle, Hu, Huisken, Humphris, Hund, Ishikawa, Jahnke, Jassogne, Johnson, Kaestner, Kell, Ketcham, Keyes, King, Kiser, Kreike, Kuchenbuch, Kutschera, Lambers, Lebreton, Lee, Lind, Lobet, Lobet, Lontoc-Roy, Lopez-Bucio, Loudet, Luster, Lynch, Macfall, Macfall, Mairhofer, Maizel, Martino, McKenzie, Metscher, Mir, Mooney, Moradi, Moradi, Moter, Mullen, Nagel, Neumann, Nonomura, Okumoto, Ortiz-Ribbing, Osmont, Oswald, Perret, Pierret, Pierret, Pierret, Pohlmeier, Poon, Ray, Reddy, Redjala, Reynolds, Roberts, Rochat, Rogers, Rudolph, Rudolph, Saini, Santi, Santner, Schmidt, Segal, Sena, Sezgin, Sharpe, Shi, Smit, Spohn, Stromberg, Tan, Thorisson, Tilman, Trachsel, Tracy, Tracy, Tracy, Tracy, Tsaftaris, Tumlinson, Vacheron, Valentine, Valentine, Valentine, Valentine, Veen, Villordon, Vollsnes, Walter, Walter, Wang, Watt, Watt, Watt, Weele, Wells, White, White, White, Wildenschild, Willatt, Willatt, Willatt, Wojciechowski, Wu, Wuyts, Yang, Zappala, Zhang, Zhu   +220 more
core   +3 more sources

Navigating the future of nano‐pesticides: A perspective on design, efficacy, mechanisms, and environmental stewardship

iMeta, EarlyView.
Nano‐pesticides are driving a paradigm shift toward sustainable plant protection. This review systematically synthesizes recent advances across four interconnected domains: (i) intelligent formulation design for targeted delivery and controlled release; (ii) interfacial behavior regulation to enhance foliar deposition; (iii) multi‐omics elucidation of ...
Xile Deng, Feiying Zhu, Heng Qiao, Wenjie Shangguan, Qin Yu, Sandeep Sharma, Vijayakumar Shanmugam, Yanan Deng, Yudan Wu, Pengyue Zhao, Ullah Farman, Lidong Cao, Shuo Yan, Zhichao Dong, Lianyang Bai   +14 more
wiley   +1 more source

Effect of bio‐fertilization and edapho‐climatic conditions on chickpea nodulation, grain yields, and seed protein in a Mediterranean context: a meta‐analysis approach

Journal of the Science of Food and Agriculture, EarlyView.
Abstract Chickpeas (Cicer arietinum L.) serve as a protein‐rich staple, particularly in Mediterranean countries, where they are often grown in marginal and water‐stressed areas. This meta‐analysis synthesized evidence from peer‐reviewed publications across Mediterranean countries to assess how chickpea rhizobial inoculation influences chickpea ...
Amira Hachana, Amir Souissi, Lewis Ziska, Katherine Morgan, Carina Yiu, Issam Achour, Asma Bouatrous, Imen Hemissi, Hanen Arfaoui, Anissa Riahi, Manel Bouraoui, Bouaziz Sifi   +11 more
wiley   +1 more source