Jon Lynch Lynch to Nitrogen
This is a "connection" page, showing publications Jon Lynch Lynch has written about Nitrogen.
Connection Strength
10.941
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Lopez-Valdivia I, Yang X, Lynch JP. Large root cortical cells and reduced cortical cell files improve growth under suboptimal nitrogen in silico. Plant Physiol. 2023 07 03; 192(3):2261-2275.
Score: 0.850
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Rangarajan H, Hadka D, Reed P, Lynch JP. Multi-objective optimization of root phenotypes for nutrient capture using evolutionary algorithms. Plant J. 2022 07; 111(1):38-53.
Score: 0.785
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Ajmera I, Henry A, Radanielson AM, Klein SP, Ianevski A, Bennett MJ, Band LR, Lynch JP. Integrated root phenotypes for improved rice performance under low nitrogen availability. Plant Cell Environ. 2022 03; 45(3):805-822.
Score: 0.774
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Lynch JP. Harnessing root architecture to address global challenges. Plant J. 2022 01; 109(2):415-431.
Score: 0.762
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Saengwilai P, Strock C, Rangarajan H, Chimungu J, Salungyu J, Lynch JP. Root hair phenotypes influence nitrogen acquisition in maize. Ann Bot. 2021 11 09; 128(7):849-858.
Score: 0.759
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Schneider HM, Lor VSN, Hanlon MT, Perkins A, Kaeppler SM, Borkar AN, Bhosale R, Zhang X, Rodriguez J, Bucksch A, Bennett MJ, Brown KM, Lynch JP. Root angle in maize influences nitrogen capture and is regulated by calcineurin B-like protein (CBL)-interacting serine/threonine-protein kinase 15 (ZmCIPK15). Plant Cell Environ. 2022 03; 45(3):837-853.
Score: 0.741
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Yang JT, Schneider HM, Brown KM, Lynch JP. Genotypic variation and nitrogen stress effects on root anatomy in maize are node specific. J Exp Bot. 2019 10 15; 70(19):5311-5325.
Score: 0.657
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Lynch JP. Root phenotypes for improved nutrient capture: an underexploited opportunity for global agriculture. New Phytol. 2019 07; 223(2):548-564.
Score: 0.632
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Rangarajan H, Postma JA, Lynch JP. Co-optimization of axial root phenotypes for nitrogen and phosphorus acquisition in common bean. Ann Bot. 2018 08 27; 122(3):485-499.
Score: 0.608
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Schneider HM, Postma JA, Wojciechowski T, Kuppe C, Lynch JP. Root Cortical Senescence Improves Growth under Suboptimal Availability of N, P, and K. Plant Physiol. 2017 Aug; 174(4):2333-2347.
Score: 0.561
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Schneider HM, Wojciechowski T, Postma JA, Brown KM, L?cke A, Zeisler V, Schreiber L, Lynch JP. Root cortical senescence decreases root respiration, nutrient content and radial water and nutrient transport in barley. Plant Cell Environ. 2017 Aug; 40(8):1392-1408.
Score: 0.552
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York LM, Lynch JP. Intensive field phenotyping of maize (Zea mays L.) root crowns identifies phenes and phene integration associated with plant growth and nitrogen acquisition. J Exp Bot. 2015 Sep; 66(18):5493-505.
Score: 0.486
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York LM, Galindo-Casta?eda T, Schussler JR, Lynch JP. Evolution of US maize (Zea mays L.) root architectural and anatomical phenes over the past 100 years corresponds to increased tolerance of nitrogen stress. J Exp Bot. 2015 Apr; 66(8):2347-58.
Score: 0.479
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Zhan A, Lynch JP. Reduced frequency of lateral root branching improves N capture from low-N soils in maize. J Exp Bot. 2015 Apr; 66(7):2055-65.
Score: 0.476
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Lynch JP. Steep, cheap and deep: an ideotype to optimize water and N acquisition by maize root systems. Ann Bot. 2013 Jul; 112(2):347-57.
Score: 0.412
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Sidhu JS, Lynch JP. Cortical cell size regulates root metabolic cost. Plant J. 2024 Jun; 118(5):1343-1357.
Score: 0.222
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Sidhu JS, Ajmera I, Arya S, Lynch JP. RootSlice-A novel functional-structural model for root anatomical phenotypes. Plant Cell Environ. 2023 05; 46(5):1671-1690.
Score: 0.207
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Strock CF, Rangarajan H, Black CK, Sch?fer ED, Lynch JP. Theoretical evidence that root penetration ability interacts with soil compaction regimes to affect nitrate capture. Ann Bot. 2022 02 11; 129(3):315-330.
Score: 0.193
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Perkins AC, Lynch JP. Increased seminal root number associated with domestication improves nitrogen and phosphorus acquisition in maize seedlings. Ann Bot. 2021 09 03; 128(4):453-468.
Score: 0.187
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Schneider HM, Wojciechowski T, Postma JA, Brown KM, Lynch JP. Ethylene modulates root cortical senescence in barley. Ann Bot. 2018 06 28; 122(1):95-105.
Score: 0.150
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Lynch JP, Wojciechowski T. Opportunities and challenges in the subsoil: pathways to deeper rooted crops. J Exp Bot. 2015 Apr; 66(8):2199-210.
Score: 0.118
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Lynch JP. Root phenes that reduce the metabolic costs of soil exploration: opportunities for 21st century agriculture. Plant Cell Environ. 2015 Sep; 38(9):1775-84.
Score: 0.117
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Zhang C, Postma JA, York LM, Lynch JP. Root foraging elicits niche complementarity-dependent yield advantage in the ancient 'three sisters' (maize/bean/squash) polyculture. Ann Bot. 2014 Dec; 114(8):1719-33.
Score: 0.116
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Postma JA, Lynch JP. Complementarity in root architecture for nutrient uptake in ancient maize/bean and maize/bean/squash polycultures. Ann Bot. 2012 Jul; 110(2):521-34.
Score: 0.098