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Shaping the Root System Architecture in Plants for Adaptation to Drought Stress.
Physiologia Plantarum : An International Journal for Plant Biology, 2022Root system architecture plays an important role in plant adaptation to drought stress. The root system architecture (RSA) consists of several structural features, which includes number and length of main and lateral roots along with the density and ...
A. Ranjan +4 more
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Journal of Experimental Botany, 2023
Under all environments, roots are important for plant anchorage and acquiring water and nutrients. However, there is a knowledge gap as to how root architecture contributes to stress-tolerance in a changing climate.
Ashley N. Hostetler +2 more
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Under all environments, roots are important for plant anchorage and acquiring water and nutrients. However, there is a knowledge gap as to how root architecture contributes to stress-tolerance in a changing climate.
Ashley N. Hostetler +2 more
semanticscholar +1 more source
Signal communication during microbial modulation of root system architecture.
Journal of Experimental Botany, 2023Every living organism on Earth depends on its interactions with other organisms to live. In the rhizosphere, plants and microorganisms constantly exchange signals and influence each other's behavior.
Yucong Li +7 more
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Journal of Applied Microbiology, 2021
Plants associate with communities of microbes (bacteria and fungi) that play critical roles in plant development, nutrient acquisition and oxidative stress tolerance.
S. Verma +6 more
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Plants associate with communities of microbes (bacteria and fungi) that play critical roles in plant development, nutrient acquisition and oxidative stress tolerance.
S. Verma +6 more
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Advances in Root System Architecture: Functionality, Plasticity, and Research Methods
Journal of Resources and Ecology, 2022: Root system architecture (RSA) refers to the spatial distribution and extended morphology of plant root systems in soil. RSA not only determines the ability of plants to obtain water and nutrients but also affects other ecological functions.
Zhiyong Zhang +5 more
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2010
Abstract Plants develop most organs post-embryonically, which allows the incorporation of environmental information into decisions concerning when and where to produce new organs. This developmental plasticity is evident in the plant root system, which in dicotyledonous plants such as Arabidopsis thaliana is mostly comprised of lateral and ...
Paul A. Ingram, Jocelyn E. Malamy
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Abstract Plants develop most organs post-embryonically, which allows the incorporation of environmental information into decisions concerning when and where to produce new organs. This developmental plasticity is evident in the plant root system, which in dicotyledonous plants such as Arabidopsis thaliana is mostly comprised of lateral and ...
Paul A. Ingram, Jocelyn E. Malamy
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Adventitious lateral rooting: the plasticity of root system architecture
Physiologia Plantarum, 2018Root formation under natural conditions is plastic in response to multiple signals. Recent studies suggested that theWUSCHEL‐RELATED HOMEOBOX11(WOX11)‐mediated adventitious root formation pathway can occur in the primary root (PR) inArabidopsis thaliana, resulting in the production of a specific type of lateral roots (LRs) in response to wounding or ...
Yachao Ge +4 more
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Adaptive Growth: Shaping Auxin-Mediated Root System Architecture
Trends in Plant Science, 2020Root system architecture (RSA), governed by the phytohormone auxin, endows plants with an adaptive advantage in particular environments. Using geographically representative arabidopsis (Arabidopsis thaliana) accessions as a resource for GWA mapping, Waidmann et al. and Ogura et al.
Guanghui, Xiao, Yuzhou, Zhang
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Hidden Branches: Developments in Root System Architecture
Annual Review of Plant Biology, 2007The root system is fundamentally important for plant growth and survival because of its role in water and nutrient uptake. Therefore, plants rely on modulation of root system architecture (RSA) to respond to a changing soil environment. Although RSA is a highly plastic trait and varies both between and among species, the basic root system morphology ...
Karen S, Osmont +2 more
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