Your search keyword '"Sidhu, Jagdeep Singh"' showing total 3 results

1. Root phenotypes for improved nitrogen capture.

Author

Lynch, Jonathan P., Galindo-Castañeda, Tania, Schneider, Hannah M., Sidhu, Jagdeep Singh, Rangarajan, Harini, and York, Larry M.

Abstract

Background: Suboptimal nitrogen availability is a primary constraint for crop production in low-input agroecosystems, while nitrogen fertilization is a primary contributor to the energy, economic, and environmental costs of crop production in high-input agroecosystems. In this article we consider avenues to develop crops with improved nitrogen capture and reduced requirement for nitrogen fertilizer. Scope: Intraspecific variation for an array of root phenotypes has been associated with improved nitrogen capture in cereal crops, including architectural phenotypes that colocalize root foraging with nitrogen availability in the soil; anatomical phenotypes that reduce the metabolic costs of soil exploration, improve penetration of hard soil, and exploit the rhizosphere; subcellular phenotypes that reduce the nitrogen requirement of plant tissue; molecular phenotypes exhibiting optimized nitrate uptake kinetics; and rhizosphere phenotypes that optimize associations with the rhizosphere microbiome. For each of these topics we provide examples of root phenotypes which merit attention as potential selection targets for crop improvement. Several cross-cutting issues are addressed including the importance of soil hydrology and impedance, phenotypic plasticity, integrated phenotypes, in silico modeling, and breeding strategies using high throughput phenotyping for co-optimization of multiple phenes. Conclusions: Substantial phenotypic variation exists in crop germplasm for an array of root phenotypes that improve nitrogen capture. Although this topic merits greater research attention than it currently receives, we have adequate understanding and tools to develop crops with improved nitrogen capture. Root phenotypes are underutilized yet attractive breeding targets for the development of the nitrogen efficient crops urgently needed in global agriculture. [ABSTRACT FROM AUTHOR]

Published

2024

2. Root anatomy and soil resource capture.

Author

Lynch, Jonathan P., Strock, Christopher F., Schneider, Hannah M., Sidhu, Jagdeep Singh, Ajmera, Ishan, Galindo-Castañeda, Tania, Klein, Stephanie P., and Hanlon, Meredith T.

Subjects

PLANT breeding, ANATOMY, RHIZOSPHERE, PHENOTYPIC plasticity, SOILS, PHENOTYPES

Abstract

Background: Suboptimal water and nutrient availability are primary constraints in global agriculture. Root anatomy plays key roles in soil resource acquisition. In this article we summarize evidence that root anatomical phenotypes present opportunities for crop breeding. Scope: Root anatomical phenotypes influence soil resource acquisition by regulating the metabolic cost of soil exploration, exploitation of the rhizosphere, the penetration of hard soil domains, the axial and radial transport of water, and interactions with soil biota including mycorrhizal fungi, pathogens, insects, and the rhizosphere microbiome. For each of these topics we provide examples of anatomical phenotypes which merit attention as selection targets for crop improvement. Several cross-cutting issues are addressed including the importance of phenotypic plasticity, integrated phenotypes, C sequestration, in silico modeling, and novel methods to phenotype root anatomy including image analysis tools. Conclusions: An array of anatomical phenes have substantial importance for the acquisition of water and nutrients. Substantial phenotypic variation exists in crop germplasm. New tools and methods are making it easier to phenotype root anatomy, determine its genetic control, and understand its utility for plant fitness. Root anatomical phenotypes are underutilized yet attractive breeding targets for the development of the efficient, resilient crops urgently needed in global agriculture. [ABSTRACT FROM AUTHOR]

Published

2021

3. Correction to: Root anatomy and soil resource capture.

Author

Lynch, Jonathan P., Strock, Christopher F., Schneider, Hannah M., Sidhu, Jagdeep Singh, Ajmera, Ishan, Galindo-Castaneda, Tania, Klein, Stephanie P., and Hanlon, Meredith T.

Subjects

ANATOMY, SOILS, OPEN access publishing

Published

2022