BRIEF
发表于 2025-3-25 06:07:58
Perspectives of Rhizobacteria with ACC Deaminase Activity in Plant Growth Under Abiotic Stress, in plants that inhibit plant growth and development. Plant growth inhibition that accrues from the stress can be overcome to a large extent by lowering the amount of ethylene that is synthesized in response to stress by the application of ACC deaminase-producing bacteria. The plant growth-promoting
未开化
发表于 2025-3-25 09:15:29
,Root–Microbe Interactions: Understanding and Exploitation of Microbiome,he rhizosphere has been revealed by recent boom in the studies exploring the underlying mechanism of the communications between plant and microbial communities. These interactions are mediated by root exudates released by plant roots controlling numerous ecological processes. The ecological function
ascend
发表于 2025-3-25 14:36:58
Unfolding the Role of Rhizomicrobiome Toward Sustainable Agriculture,he goals of environmental preservation, economic growth, and socioeconomic equality. For sustainable development of the human world, sustainable agriculture is the need of the hour. The broad application of microbes in sustainable agriculture is due to the genetic dependency of plants on the benefic
lipids
发表于 2025-3-25 17:25:25
,Morphological and Physiological Aspects of Symbiotic Plant–Microbe Interactions and Their Significay. Mutualism is a general term in which two organisms interact where either one (commensalism) or both are benefitted (symbiosis). Plants in nature always grow among soil microorganisms, and some of these become closely associated with plants to form mutualistic symbioses. Examples of such symbiotic
endure
发表于 2025-3-25 21:46:35
,Impact of Climate Change on Root–Pathogen Interactions,e, CO., moisture, etc. enhances the abundance and virulence of soilborne pathogens residing in the rhizosphere. Among, microbial communities, fungi such as . and . infect a wide range of commercially-significant crops and can significantly affect world economy. To vanquish the phytopathogens, an arr
干涉
发表于 2025-3-26 02:28:53
Arbuscular Mycorrhizal Fungi and Their Responses to Nutrient Enrichment,and P) under nutrient deficiency conditions. However, how nutrient enrichment affects mycorrhiza is still not well understood, in particular under future global changing scenarios such as nitrogen deposition. In this chapter, we first review the major pathways of mycorrhizal-mediated nutrient acquis
CLAY
发表于 2025-3-26 07:53:50
Relationship Between Arbuscular Mycorrhizas and Plant Growth: Improvement or Depression?,ts, namely, arbuscular mycorrhizas. The symbiosis possesses bidirectional roles in mycorrhizal fungi and host plants: host plants provide photosynthates for the fungal partner; mycorrhizal fungi absorb water and nutrients from soils to plant partner. Mycorrhizal symbiosis has a typical effect on gro
障碍物
发表于 2025-3-26 09:02:07
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CANON
发表于 2025-3-26 16:01:21
1613-3382 phasises on biotechnological perspectives of root biology inThe book ‘Root Biology’ written by experts in the field, covers latest research on cellular, genetic, physiological and ecological developmental facets of root growth as well as the interaction of root with an array of microbes whether for
匍匐
发表于 2025-3-26 17:09:17
Biocontrol of Soilborne Root Pathogens: An Overview,ularly bacteria and fungi, have shown biocontrol potentials against various root pathogens. Despite a number of added benefits of biocontrol methods over synthetic chemical pesticides, the popularity of these methods among farmers is still very limited.