Articles citing this paper
Topsoil foraging and phosphorus acquisition efficiency in maize (Zea mays)
Jinming Zhu A , Shawn M. Kaeppler B and Jonathan P. Lynch A C
+ Author Affiliations
- Author Affiliations
A Department of Horticulture, Pennsylvania State University, University Park, PA 16802, USA.
B Department of Agronomy, University of Wisconsin, Madison, WI 53706, USA.
C Corresponding author. Email: JPL4@psu.edu
Functional Plant Biology 32(8) 749-762 https://doi.org/10.1071/FP05005
Submitted: 30 December 2004 Accepted: 5 May 2005 Published: 3 August 2005
168 articles found in Crossref database.
Phosphate Nutrition: Improving Low-Phosphate Tolerance in Crops
López-Arredondo Damar Lizbeth,
Leyva-González Marco Antonio,
González-Morales Sandra Isabel,
López-Bucio José, Herrera-Estrella Luis
Annual Review of Plant Biology. 2014 65(1). p.95
Co-optimization of axial root phenotypes for nitrogen and phosphorus acquisition in common bean
Rangarajan Harini,
Postma Johannes A, Lynch Jonathan P
Annals of Botany. 2018 122(3). p.485
It’s time to make changes: modulation of root system architecture by nutrient signals
Giehl Ricardo F. H.,
Gruber Benjamin D., von Wirén Nicolaus
Journal of Experimental Botany. 2014 65(3). p.769
Growth, root adaptations, phosphorus and potassium nutrition of rice when grown under the co-limitations of phosphorus, potassium and moisture
Somaweera K. A. T. N.,
Suriyagoda L. D. B.,
Sirisena D. N., De Costa W. A. J. M.
Journal of Plant Nutrition. 2017 40(6). p.795
Root distributions of Australian herbaceous perennial legumes in response to phosphorus placement
Denton Matthew D.,
Sasse Camille,
Tibbett Mark, Ryan Megan H.
Functional Plant Biology. 2006 33(12). p.1091
Root Traits and Phenotyping Strategies for Plant Improvement
Paez-Garcia Ana,
Motes Christy,
Scheible Wolf-Rüdiger,
Chen Rujin,
Blancaflor Elison, Monteros Maria
Plants. 2015 4(2). p.334
Annual Plant Reviews online (2018)
Agronomic and physiological traits associated with genetic improvement of phosphorus use efficiency of wheat grown in a purple lithomorphic soil
Yang Hongkun,
Chen Renhua,
Chen Yufeng,
Li Han,
Wei Ting,
Xie Wei, Fan Gaoqiong
The Crop Journal. 2022 10(4). p.1151
Root angle in maize influences nitrogen capture and is regulated by calcineurin B‐like protein (CBL)‐interacting serine/threonine‐protein kinase 15 (ZmCIPK15)
Schneider Hannah M.,
Lor Vai Sa Nee,
Hanlon Meredith T.,
Perkins Alden,
Kaeppler Shawn M.,
Borkar Aditi N.,
Bhosale Rahul,
Zhang Xia,
Rodriguez Jonas,
Bucksch Alexander,
Bennett Malcolm J.,
Brown Kathleen M., Lynch Jonathan P.
Plant, Cell & Environment. 2022 45(3). p.837
The Maize Genome (2018)
Soil resource heterogeneity in the form of aggregated litter alters maize productivity
Loecke Terrance D., Philip Robertson G.
Plant and Soil. 2009 325(1-2). p.231
Soil plant-available phosphorus levels and maize genotypes determine the phosphorus acquisition efficiency and contribution of mycorrhizal pathway
Chu Qun,
Zhang Lin,
Zhou Jianwei,
Yuan Lixing,
Chen Fanjun,
Zhang Fusuo,
Feng Gu, Rengel Zed
Plant and Soil. 2020 449(1-2). p.357
Comparative phenomics of annual grain legume root architecture
Burridge James D.,
Rangarajan Harini, Lynch Jonathan P.
Crop Science. 2020 60(5). p.2574
Plant signaling: Understanding the molecular crosstalk (2014)
A Statistical Growth Property of Plant Root Architectures
Sultan Sam,
Snider Joseph,
Conn Adam,
Li Mao,
Topp Christopher N., Navlakha Saket
Plant Phenomics. 2020 2020
Effects of Arbuscular Mycorrhizal Fungal Inoculation and Phosphorus (P) Addition on Maize P Utilization and Growth in Reclaimed Soil of a Mining Area
Hao X. J.,
Hong J. P.,
Zhang T. Q.,
Li J. R.,
Gao W. J., Zheng Z. M.
Communications in Soil Science and Plant Analysis. 2014 45(18). p.2413
Banding of Fertilizer Improves Phosphorus Acquisition and Yield of Zero Tillage Maize by Concentrating Phosphorus in Surface Soil
Alam Md.,
Bell Richard,
Salahin Nazmus,
Pathan Shahab,
Mondol A.T.M.A.I.,
Alam M.J.,
Rashid M.H.,
Paul P.L.C.,
Hossain M.I., Shil N.C.
Sustainability. 2018 10(9). p.3234
Root angle, phosphorus, and water: Interactions and effects on durum wheat genotype performance in drought-prone environments
van der Bom Frederik J. T.,
Williams Alwyn,
Raymond Nelly S.,
Alahmad Samir,
Hickey Lee T.,
Singh Vijaya, Bell Michael J.
Plant and Soil. 2023
A systems‐biology approach identifies co‐expression modules in response to low phosphate supply in maize lines of different breeding history
He Mingjie,
Li Xuelian,
Mang Melissa,
Li Zhi,
Ludewig Uwe, Schulze Waltraud X.
The Plant Journal. 2022 109(5). p.1249
Intensive field phenotyping of maize (Zea maysL.) root crowns identifies phenes and phene integration associated with plant growth and nitrogen acquisition
York Larry M., Lynch Jonathan P.
Journal of Experimental Botany. 2015 66(18). p.5493
Functional implications of root cortical senescence for soil resource capture
Schneider Hannah M., Lynch Jonathan P.
Plant and Soil. 2018 423(1-2). p.13
Root growth and root system architecture of field-grown maize in response to high planting density
Shao Hui,
Xia Tingting,
Wu Dali,
Chen Fanjun, Mi Guohua
Plant and Soil. 2018 430(1-2). p.395
Phosphorus uptake efficiency, root morphology and architecture in Brazilian wheat cultivars
da Silva Alinne,
Bruno Isabeli Pereira,
Franzini Vinícius Ide,
Marcante Nericlenes Chaves,
Benitiz Leticia, Muraoka Takashi
Journal of Radioanalytical and Nuclear Chemistry. 2016 307(2). p.1055
Maize straw mulching with no-tillage increases fertile spike and grain yield of dryland wheat by regulating root-soil interaction and nitrogen nutrition
Yang Hongkun,
Li Jingang,
Wu Ge,
Huang Xiulan, Fan Gaoqiong
Soil and Tillage Research. 2023 228 p.105652
Light intensity influence maize adaptation to low P stress by altering root morphology
Zhou Tao,
Wang Li,
Sun Xin,
Wang Xiaochun,
Chen Yinglong,
Rengel Zed,
Liu Weiguo, Yang Wenyu
Plant and Soil. 2020 447(1-2). p.183
Influence of arbuscular mycorrhizae on plant growth, essential oil production and phosphorus uptake of Salvia officinalis L.
Tarraf Waed,
Ruta Claudia,
Tagarelli Anna,
De Cillis Francesca, De Mastro Giuseppe
Industrial Crops and Products. 2017 102 p.144
Root phenotypes for improved nitrogen capture
Lynch Jonathan P.,
Galindo-Castañeda Tania,
Schneider Hannah M.,
Sidhu Jagdeep Singh,
Rangarajan Harini, York Larry M.
Plant and Soil. 2023
Phenotypic plasticity of the maize root system in response to heterogeneous nitrogen availability
Yu Peng,
White Philip J.,
Hochholdinger Frank, Li Chunjian
Planta. 2014 240(4). p.667
Roots Withstanding their Environment: Exploiting Root System Architecture Responses to Abiotic Stress to Improve Crop Tolerance
Koevoets Iko T.,
Venema Jan Henk,
Elzenga J. Theo. M., Testerink Christa
Frontiers in Plant Science. 2016 07
Evolution of US maize (Zea mays L.) root architectural and anatomical phenes over the past 100 years corresponds to increased tolerance of nitrogen stress
York L. M.,
Galindo-Castaneda T.,
Schussler J. R., Lynch J. P.
Journal of Experimental Botany. 2015 66(8). p.2347
LARGE ROOT ANGLE1, encoding OsPIN2, is involved in root system architecture in rice
Wang Lingling,
Guo Mengxue,
Li Yong,
Ruan Wenyuan,
Mo Xiaorong,
Wu Zhongchang,
Sturrock Craig J,
Yu Hao,
Lu Chungui,
Peng Jinrong, Mao Chuanzao
Journal of Experimental Botany. 2018 69(3). p.385
Strategies for improving phosphorus acquisition efficiency of crop plants
Ramaekers Lara,
Remans Roseline,
Rao Idupulapati M.,
Blair Matthew W., Vanderleyden Jozef
Field Crops Research. 2010 117(2-3). p.169
Abiotic Stresses in Wheat (2023)
Efficient production and characterization for maize inbred lines with low-phosphorus tolerance
Li Kunpeng,
Xu Zhongping,
Zhang Kewei,
Yang Aifang, Zhang Juren
Plant Science. 2007 172(2). p.255
Prospects of genetics and breeding for low-phosphate tolerance: an integrated approach from soil to cell
Ojeda-Rivera Jonathan Odilón,
Alejo-Jacuinde Gerardo,
Nájera-González Héctor-Rogelio, López-Arredondo Damar
Theoretical and Applied Genetics. 2022 135(11). p.4125
Effect of Timing Fertilizer Application on leaf yield and quality of tobacco
Lisuma Jacob Bulenga,
Semoka Johnson Mashambo, Mbwambo Abraham Furahini
Heliyon. 2023 9(9). p.e19670
Genetic variation for root architectural traits in response to phosphorus deficiency in mungbean at the seedling stage
Reddy Venkata Ravi Prakash,
Aski Muraleedhar S.,
Mishra Gyan Prakash,
Dikshit Harsh Kumar,
Singh Akanksha,
Pandey Renu,
Singh Madan Pal,
Gayacharan ,
Ramtekey Vinita,
Priti ,
Rai Neha,
Nair Ramakrishnan M., Struik Paul C.
PLOS ONE. 2020 15(6). p.e0221008
Annual Plant Reviews Volume 48 (2015)
Dissecting the Root Phenotypic and Genotypic Variability of the Iowa Mung Bean Diversity Panel
Chiteri Kevin O.,
Jubery Talukder Zaki,
Dutta Somak,
Ganapathysubramanian Baskar,
Cannon Steven, Singh Arti
Frontiers in Plant Science. 2022 12
Understanding phosphorus dynamics in wheat plant and growth response in a split-root system in acidic soil
Shabnam Rubya,
Tarek Mehedi Hasan, Iqbal Md Toufiq
Agriculture and Natural Resources. 2018 52(3). p.259
Shifts in plant functional strategies over the course of wheat domestication
Roucou Agathe,
Violle Cyrille,
Fort Florian,
Roumet Pierre,
Ecarnot Martin,
Vile Denis, Martin Adam
Journal of Applied Ecology. 2018 55(1). p.25
Fast and Efficient Root Phenotyping via Pose Estimation
Berrigan Elizabeth M.,
Wang Lin,
Carrillo Hannah,
Echegoyen Kimberly,
Kappes Mikayla,
Torres Jorge,
Ai-Perreira Angel,
McCoy Erica,
Shane Emily,
Copeland Charles D.,
Ragel Lauren,
Georgousakis Charidimos,
Lee Sanghwa,
Reynolds Dawn,
Talgo Avery,
Gonzalez Juan,
Zhang Ling,
Rajurkar Ashish B.,
Ruiz Michel,
Daniels Erin,
Maree Liezl,
Pariyar Shree,
Busch Wolfgang, Pereira Talmo D.
Plant Phenomics. 2024 6
A comprehensive analysis of root morphological changes and nitrogen allocation in maize in response to low nitrogen stress
GAO KUN,
CHEN FANJUN,
YUAN LIXING,
ZHANG FUSUO, MI GUOHUA
Plant, Cell & Environment. 2015 38(4). p.740
Current advances and future directions in genetic enhancement of a climate resilient food legume crop, cowpea (Vigna unguiculata L. Walp.)
Sindhu Meenakshi,
Kumar Anil,
Yadav Honey,
Chaudhary Darshna,
Jaiwal Ranjana, Jaiwal Pawan K.
Plant Cell, Tissue and Organ Culture (PCTOC). 2019 139(3). p.429
Harnessing root architecture to address global challenges
Lynch Jonathan P.
The Plant Journal. 2022 109(2). p.415
OsbZIP1 regulates phosphorus uptake and nitrogen utilization, contributing to improved yield
Tanaka Nobuhiro,
Yoshida Saki,
Islam Md. Saiful,
Yamazaki Kiyoshi,
Fujiwara Toru, Ohmori Yoshihiro
The Plant Journal. 2024 118(1). p.159
Grain yield and root characteristics of summer maize (Zea mays L.) under shade stress conditions
Gao J.,
Shi J.,
Dong S.,
Liu P.,
Zhao B., Zhang J.
Journal of Agronomy and Crop Science. 2017 203(6). p.562
Ameliorated light conditions increase the P uptake capability of soybean in a relay-strip intercropping system by altering root morphology and physiology in the areas with low solar radiation
Zhou Tao,
Wang Li,
Yang Huan,
Gao Yang,
Liu Weiguo, Yang Wenyu
Science of The Total Environment. 2019 688 p.1069
The relative contributions of pH, organic anions, and phosphatase to rhizosphere soil phosphorus mobilization and crop phosphorus uptake in maize/alfalfa polyculture
Sun Baoru,
Gao Yingzhi,
Wu Xue,
Ma Huimin,
Zheng Congcong,
Wang Xinyu,
Zhang Hualiang,
Li Zhijian, Yang Haijun
Plant and Soil. 2020 447(1-2). p.117
Large root cortical cells and reduced cortical cell files improve growth under suboptimal nitrogen in silico
Lopez-Valdivia Ivan,
Yang Xiyu, Lynch Jonathan P
Plant Physiology. 2023 192(3). p.2261
(2016)
Steep, cheap and deep: an ideotype to optimize water and N acquisition by maize root systems
Lynch Jonathan P.
Annals of Botany. 2013 112(2). p.347
Genetic variation in seminal and nodal root angle and their association with grain yield of maize under water-stressed field conditions
Ali M. Liakat,
Luetchens Jon,
Nascimento Josiel,
Shaver Timothy M.,
Kruger Greg R., Lorenz Aaron J.
Plant and Soil. 2015 397(1-2). p.213
Synergy between root hydrotropic response and root biomass in maize ( Zea mays L.) enhances drought avoidance
Eapen Delfeena,
Martínez-Guadarrama Jesús,
Hernández-Bruno Oralia,
Flores Leonardo,
Nieto-Sotelo Jorge, Cassab Gladys I.
Plant Science. 2017 265 p.87
Variation in early phosphorus-uptake efficiency among wheat genotypes grown on two contrasting Australian soils
Liao Mingtan,
Hocking Peter J.,
Dong Bei,
Delhaize Emmanuel,
Richardson Alan E, Ryan Peter R.
Australian Journal of Agricultural Research. 2008 59(2). p.157
Root Cortical Aerenchyma Enhances the Growth of Maize on Soils with Suboptimal Availability of Nitrogen, Phosphorus, and Potassium
Postma Johannes Auke, Lynch Jonathan Paul
Plant Physiology. 2011 156(3). p.1190
Nutrient Use Efficiency: from Basics to Advances (2015)
Genotypic variation for root traits of maize (Zea mays L.) from the Purhepecha Plateau under contrasting phosphorus availability
Bayuelo-Jiménez Jeannette S.,
Gallardo-Valdéz Marín,
Pérez-Decelis Verónica A.,
Magdaleno-Armas Lourdes,
Ochoa Iván, Lynch Jonathan P.
Field Crops Research. 2011 121(3). p.350
Plant Life Under Changing Environment (2020)
Plant Macronutrient Use Efficiency (2017)
Next generation shovelomics: set up a tent and REST
Colombi Tino,
Kirchgessner Norbert,
Le Marié Chantal Andrée,
York Larry Matthew,
Lynch Jonathan P., Hund Andreas
Plant and Soil. 2015 388(1-2). p.1
WinRoots: A High-Throughput Cultivation and Phenotyping System for Plant Phenomics Studies Under Soil Stress
Zhang Yangyang,
Zhang Wenjing,
Cao Qicong,
Zheng Xiaojian,
Yang Jingting,
Xue Tong,
Sun Wenhao,
Du Xinrui,
Wang Lili,
Wang Jing,
Zhao Fengying,
Xiang Fengning, Li Shuo
Frontiers in Plant Science. 2022 12
Unraveling plant adaptation to single and combined nutrient deficiencies in a dicotyledonous and a monocotyledonous plant species
Tiziani Raphael,
Pranter Marion,
Valentinuzzi Fabio,
Pii Youry,
Luigimaria Borruso,
Cesco Stefano, Mimmo Tanja
Plant Science. 2023 335 p.111793
QTL mapping and epistasis analysis of brace root traits in maize
Ku L. X.,
Sun Z. H.,
Wang C. L.,
Zhang J.,
Zhao R. F.,
Liu H. Y.,
Tai G. Q., Chen Y. H.
Molecular Breeding. 2012 30(2). p.697
Root traits of European Vicia faba
cultivars-Using machine learning to explore adaptations to agroclimatic conditions
Zhao Jiangsan,
Sykacek Peter,
Bodner Gernot, Rewald Boris
Plant, Cell & Environment. 2017
Modelling root–soil interactions using three–dimensional models of root growth, architecture and function
Dunbabin Vanessa M.,
Postma Johannes A.,
Schnepf Andrea,
Pagès Loïc,
Javaux Mathieu,
Wu Lianhai,
Leitner Daniel,
Chen Ying L.,
Rengel Zed, Diggle Art J.
Plant and Soil. 2013 372(1-2). p.93
Three-Dimensional Root Phenotyping with a Novel Imaging and Software Platform
Clark Randy T.,
MacCurdy Robert B.,
Jung Janelle K.,
Shaff Jon E.,
McCouch Susan R.,
Aneshansley Daniel J., Kochian Leon V.
Plant Physiology. 2011 156(2). p.455
Genetic analysis of root morphological traits in wheat
Petrarulo Maria,
Marone Daniela,
Ferragonio Pina,
Cattivelli Luigi,
Rubiales Diego,
De Vita Pasquale, Mastrangelo Anna Maria
Molecular Genetics and Genomics. 2015 290(3). p.785
Rice actin binding protein RMD controls crown root angle in response to external phosphate
Huang Guoqiang,
Liang Wanqi,
Sturrock Craig J.,
Pandey Bipin K.,
Giri Jitender,
Mairhofer Stefan,
Wang Daoyang,
Muller Lukas,
Tan Hexin,
York Larry M.,
Yang Jing,
Song Yu,
Kim Yu-Jin,
Qiao Yang,
Xu Jian,
Kepinski Stefan,
Bennett Malcolm J., Zhang Dabing
Nature Communications. 2018 9(1).
Characterization of root traits for phosphorus deficiency tolerance using chromosome segment substitution lines
Akamatsu Yuki,
Tajima Ryosuke,
Uno Toru,
Ito Toyoaki,
Nishida Mizuhiko, Saito Masanori
Plant Root. 2022 16(0). p.21
Identification of a maize (Zea mays L.) inbred line adapted to low‐P conditions via analyses of phosphorus utilization, root acidification, and calcium influx
Bera Tanumoy,
McLamore Eric S.,
Wasik Brett,
Rathinasabapathi Bala, Liu Guodong
Journal of Plant Nutrition and Soil Science. 2018 181(2). p.275
Compared Phosphorus Efficiency in Soybean, Sunflower and Maize
Fernández M. C.,
Belinque H.,
Boem F. H. Gutierrez, Rubio G.
Journal of Plant Nutrition. 2009 32(12). p.2027
Impact of axial root growth angles on nitrogen acquisition in maize depends on environmental conditions
Dathe A.,
Postma J. A.,
Postma-Blaauw M. B., Lynch J. P.
Annals of Botany. 2016 118(3). p.401
Optimisation of root traits to provide enhanced ecosystem services in agricultural systems: A focus on cover crops
Griffiths Marcus,
Delory Benjamin M.,
Jawahir Vanessica,
Wong Kong M.,
Bagnall G. Cody,
Dowd Tyler G.,
Nusinow Dmitri A.,
Miller Allison J., Topp Christopher N.
Plant, Cell & Environment. 2022 45(3). p.751
Effect of N Fertilizers on Root Growth and Endogenous Hormones in Strawberry
WANG Bo,
LAI Tao,
HUANG Qi-Wei,
YANG Xing-Ming, SHEN Qi-Rong
Pedosphere. 2009 19(1). p.86
Localized micronutrient patches induce lateral root foraging and chemotropism in Nicotiana attenuata
Ferrieri Abigail P.,
Machado Ricardo A. R.,
Arce Carla C. M.,
Kessler Danny,
Baldwin Ian T., Erb Matthias
Journal of Integrative Plant Biology. 2017 59(10). p.759
Maize responds to low shoot P concentration by altering root morphology rather than increasing root exudation
Wen Zhihui,
Li Haigang,
Shen Jianbo, Rengel Zed
Plant and Soil. 2017 416(1-2). p.377
Rhizobiology: Molecular Physiology of Plant Roots (2021)
High-throughput root phenotyping screens identify genetic loci associated with root architectural traits in Brassica napus under contrasting phosphate availabilities
Shi Lei,
Shi Taoxiong,
Broadley Martin R.,
White Philip J.,
Long Yan,
Meng Jinling,
Xu Fangsen, Hammond John P.
Annals of Botany. 2013 112(2). p.381
Reduced crown root number improves water acquisition under water deficit stress in maize (Zea maysL.)
Gao Yingzhi, Lynch Jonathan P.
Journal of Experimental Botany. 2016 67(15). p.4545
How Does Phosphorus Restriction Impact Soil Health Parameters in Midwestern Corn–Soybean Systems?
Wade Jordon,
Culman Steve W.,
Sharma Stuti,
Mann Meredith,
Demyan M. Scott,
Mercer Kristin L., Basta Nicholas T.
Agronomy Journal. 2019 111(4). p.1682
Handbook of Maize: Its Biology (2009)
Genetic control of root architectural plasticity in maize
Schneider Hannah M,
Klein Stephanie P,
Hanlon Meredith T,
Nord Eric A,
Kaeppler Shawn,
Brown Kathleen M,
Warry Andrew,
Bhosale Rahul,
Lynch Jonathan P, Dodd Ian
Journal of Experimental Botany. 2020 71(10). p.3185
Greater lateral root branching density in maize improves phosphorus acquisition from low phosphorus soil
Jia Xucun,
Liu Peng, Lynch Jonathan P
Journal of Experimental Botany. 2018 69(20). p.4961
QTL mapping of root angle in F2 populations from maize B73 × teosinte Zea luxurians
Omori Fumie, Mano Yoshiro
Plant Root. 2007 1(0). p.57
Tropical maize selection indexes genotypes for efficiency in use of nutrients: phosphorus
Reis Gabriel Gonçalves dos,
Pereira Felipe Bermudez,
Granato Italo Stefanine Correia,
DoVale Júlio César, Fritsche-Neto Roberto
Revista Ceres. 2017 64(3). p.266
Root Genomics (2011)
Should Root Plasticity Be a Crop Breeding Target?
Schneider Hannah M., Lynch Jonathan P.
Frontiers in Plant Science. 2020 11
Biomass partitioning and rhizosphere responses of maize and faba bean to phosphorus deficiency
Liu Haitao,
White Philip J., Li Chunjian
Crop and Pasture Science. 2016 67(8). p.847
Multiple adaptive responses of Australian native perennial legumes with pasture potential to grow in phosphorus- and moisture-limited environments
Suriyagoda Lalith D. B.,
Ryan Megan H.,
Renton Michael, Lambers Hans
Annals of Botany. 2010 105(5). p.755
Shoot growth potential drives N uptake in maize plants and correlates with root growth in the soil
Peng Yunfeng,
Niu Junfang,
Peng Zhengping,
Zhang Fusuo, Li Chunjian
Field Crops Research. 2010 115(1). p.85
Root system architecture variation in response to different NH4 + concentrations and its association with nitrogen-deficient tolerance traits in rice
Ogawa Satoshi,
Valencia Milton Orlando,
Ishitani Manabu, Selvaraj Michael Gomez
Acta Physiologiae Plantarum. 2014 36(9). p.2361
Plant-Environment Interactions, Third Edition (2006)
Phosphorus runoff from a phosphorus deficient soil under common bean (Phaseolus vulgaris L.) and soybean (Glycine max L.) genotypes with contrasting root architecture
Henry Amelia,
Kleinman Peter J. A., Lynch Jonathan P.
Plant and Soil. 2009 317(1-2). p.1
Reduced root cortical burden improves growth and grain yield under low phosphorus availability in maize
Galindo‐Castañeda Tania,
Brown Kathleen M., Lynch Jonathan P.
Plant, Cell & Environment. 2018 41(7). p.1579
Variation in root system architecture and morphology of two wheat genotypes is a predictor of their tolerance to phosphorus deficiency
Nguyen Van Lam, Stangoulis James
Acta Physiologiae Plantarum. 2019 41(7).
Complementarity in root architecture for nutrient uptake in ancient maize/bean and maize/bean/squash polycultures
Postma Johannes A., Lynch Jonathan P.
Annals of Botany. 2012 110(2). p.521
Root developmental responses to phosphorus nutrition
Liu Dong
Journal of Integrative Plant Biology. 2021 63(6). p.1065
Phenotypic responses of foxtail millet (Setaria italica) genotypes to phosphate supply under greenhouse and natural field conditions
Ceasar S. Antony,
Ramakrishnan M.,
Vinod K. K.,
Roch G. Victor,
Upadhyaya Hari D.,
Baker Alison,
Ignacimuthu S., Mehanathan Muthamilarasan
PLOS ONE. 2020 15(6). p.e0233896
Maize drought tolerance: Potential improvements through arbuscular mycorrhizal symbiosis?
Boomsma Christopher R., Vyn Tony J.
Field Crops Research. 2008 108(1). p.14
Root phenotypes for improved nutrient capture: an underexploited opportunity for global agriculture
Lynch Jonathan P.
New Phytologist. 2019 223(2). p.548
Diversity, Variance, and Stability of Root Phenes of Peanut (Arachis hypogaea L.)
Li Lijie,
Li Qian,
Liu Yanli,
Xue Huiyun,
Zhang Xiaotian,
Wang Bin,
Pan Xiaoping,
Zhang Zhiyong, Zhang Baohong
Physiologia Plantarum. 2024 176(1).
Overexpression of the protein phosphatase 2A regulatory subunit a gene ZmPP2AA1 improves low phosphate tolerance by remodeling the root system architecture of maize
Wang Jiemin,
Pei Laming,
Jin Zhe,
Zhang Kewei,
Zhang Juren, Wang Wei
PLOS ONE. 2017 12(4). p.e0176538
Root Phenes for Enhanced Soil Exploration and Phosphorus Acquisition: Tools for Future Crops
Lynch Jonathan P.
Plant Physiology. 2011 156(3). p.1041
Fighting Poverty in Sub-Saharan Africa: The Multiple Roles of Legumes in Integrated Soil Fertility Management (2011)
Understanding phosphorus status and P translocation within wheat plant in a split-root system
Shabnam Rubya, Iqbal Md. Toufiq
EURASIAN JOURNAL OF SOIL SCIENCE (EJSS). 2018 7(1). p.30
Root cortical aerenchyma improves the drought tolerance of maize (Zea mays L.)
ZHU JINMING,
BROWN KATHLEEN M., LYNCH JONATHAN P.
Plant, Cell & Environment. 2010 33(5). p.740
Soil type determines how root and rhizosphere traits relate to phosphorus acquisition in field-grown maize genotypes
Erel Ran,
Bérard Annette,
Capowiez Line,
Doussan Claude,
Arnal Didier,
Souche Gérard,
Gavaland André,
Fritz Christian,
Visser Eric J. W.,
Salvi Silvio,
Le Marié Chantal,
Hund Andreas, Hinsinger Philippe
Plant and Soil. 2017 412(1-2). p.115
Advances in Agronomy Volume 116 (2012)
Temporal and spatial dynamics in root length density of field-grown maize and NPK in the soil profile
Peng Yunfeng,
Yu Peng,
Zhang Yu,
Sun Geng,
Ning Peng,
Li Xuexian, Li Chunjian
Field Crops Research. 2012 131 p.9
Influence of nutrient supply and water vapour pressure on root architecture of Douglas-fir and western hemlock seedlings
Conlin Timothy S. S., van den Driessche R.
Functional Plant Biology. 2006 33(10). p.941
Architectural Tradeoffs between Adventitious and Basal Roots for Phosphorus Acquisition
Walk Thomas C.,
Jaramillo Raul, Lynch Jonathan P.
Plant and Soil. 2006 279(1-2). p.347
Synergy between a shallow root system with a DRO1 homologue and localized P application improves P uptake of lowland rice
Oo Aung Zaw,
Tsujimoto Yasuhiro,
Mukai Mana,
Nishigaki Tomohiro,
Takai Toshiyuki, Uga Yusaku
Scientific Reports. 2021 11(1).
Ideotype root architecture for efficient nitrogen acquisition by maize in intensive cropping systems
Mi GuoHua,
Chen FanJun,
Wu QiuPing,
Lai NingWei,
Yuan LiXing, Zhang FuSuo
Science China Life Sciences. 2010 53(12). p.1369
Phenotypic Diversity of Root Anatomical and Architectural Traits in Zea Species
Burton Amy L.,
Brown Kathleen M., Lynch Jonathan P.
Crop Science. 2013 53(3). p.1042
QTL mapping and phenotypic variation for root architectural traits in maize (Zea mays L.)
Burton Amy L.,
Johnson James M.,
Foerster Jillian M.,
Hirsch Candice N.,
Buell C. R.,
Hanlon Meredith T.,
Kaeppler Shawn M.,
Brown Kathleen M., Lynch Jonathan P.
Theoretical and Applied Genetics. 2014 127(11). p.2293
Compensation among root classes in Phaseolus vulgaris L.
Rubio Gerardo, Lynch Jonathan P.
Plant and Soil. 2007 290(1-2). p.307
From lab to field, new approaches to phenotyping root system architecture
Zhu Jinming,
Ingram Paul A,
Benfey Philip N, Elich Tedd
Current Opinion in Plant Biology. 2011 14(3). p.310
Improved post-silking light interception increases yield and P-use efficiency of maize in maize/soybean relay strip intercropping
Zhou Tao,
Wang Li,
Sun Xin,
Wang Xiaochun,
Pu Tian,
Yang Huan,
Rengel Zed,
Liu Weiguo, Yang Wenyu
Field Crops Research. 2021 262 p.108054
Spatiotemporal variation of nitrate uptake kinetics within the maize (Zea maysL.) root system is associated with greater nitrate uptake and interactions with architectural phenes
York Larry M.,
Silberbush Moshe, Lynch Jonathan P.
Journal of Experimental Botany. 2016 67(12). p.3763
The Ecophysiology of Plant-Phosphorus Interactions (2008)
Exploring root system architecture and anatomical variability in alfalfa (Medicago sativa L.) seedlings
Pan Xinya,
Wang Pengfei,
Wei Xianwei,
Zhang Jinxin,
Xu Bingcheng,
Chen Yinglong,
Wei Gehong, Wang Zhi
BMC Plant Biology. 2023 23(1).
Genotypic variation in root architectural traits under contrasting phosphorus levels in Mediterranean and Indian origin lentil genotypes
Aski Muraleedhar,
Mehra Reena,
Mishra Gyan Prakash,
Singh Dharmendra,
Yadav Prachi,
Rai Neha,
Reddy Venkata Ravi Prakash,
MB Arun Kumar,
Pandey Renu,
Singh Madan Pal,
Gayacharan ,
Bansal Ruchi,
Tripathi Kuldeep,
Udupa Sripada M.,
Kumar Shiv,
Sarker Ashutosh, Dikshit Harsh Kumar
PeerJ. 2022 10 p.e12766
Maize Varieties Released in Different Eras Have Similar Root Length Density Distributions in the Soil, Which Are Negatively Correlated with Local Concentrations of Soil Mineral Nitrogen
Ning Peng,
Li Sa,
White Philip J.,
Li Chunjian, Schiefelbein John
PLOS ONE. 2015 10(3). p.e0121892
The Ecophysiology of Plant-Phosphorus Interactions (2008)
Performance of alfalfa rather than maize stimulates system phosphorus uptake and overyielding of maize/alfalfa intercropping via changes in soil water balance and root morphology and distribution in a light chernozemic soil
Sun Baoru,
Gao Yingzhi,
Yang Haijun,
Zhang Wei, Li Zhijian
Plant and Soil. 2019 439(1-2). p.145
High-throughput imaging and analysis of root system architecture inBrachypodium distachyonunder differential nutrient availability
Ingram Paul A.,
Zhu Jinming,
Shariff Aabid,
Davis Ian W.,
Benfey Philip N., Elich Tedd
Philosophical Transactions of the Royal Society B: Biological Sciences. 2012 367(1595). p.1559
Detection of quantitative trait loci for seminal root traits in maize (Zea mays L.) seedlings grown under differential phosphorus levels
Zhu Jinming,
Mickelson Suzanne M.,
Kaeppler Shawn M., Lynch Jonathan P.
Theoretical and Applied Genetics. 2006 113(1). p.1
Maize yield response to a phosphorus-solubilizing microbial inoculant in field trials
LEGGETT M.,
NEWLANDS N. K.,
GREENSHIELDS D.,
WEST L.,
INMAN S., KOIVUNEN M. E.
The Journal of Agricultural Science. 2015 153(8). p.1464
Effects of Nitrogen Application on Root Length and Grain Yield of Rain‐Fed Maize under Different Soil Types
Feng Guozhong,
Zhang Yongjie,
Chen Yanling,
Li Qian,
Chen Fanjun,
Gao Qiang, Mi Guohua
Agronomy Journal. 2016 108(4). p.1656
Improving phosphate use efficiency in the aquatic crop watercress (Nasturtium officinale)
Hibbert Lauren, Taylor Gail
Horticulture Research. 2022 9
The utility of phenotypic plasticity of root hair length for phosphorus acquisition
Zhu Jinming,
Zhang Chaochun, Lynch Jonathan P.
Functional Plant Biology. 2010 37(4). p.313
Fine Root Patterning and Balanced Inorganic Phosphorus Distribution in the Soil Indicate Distinctive Adaptation of Maize Plants to Phosphorus Deficiency
ZHANG Yu,
YU Peng,
PENG Yun-Feng,
LI Xue-Xian,
CHEN Fan-Jun, LI Chun-Jian
Pedosphere. 2012 22(6). p.870
Ethylene modulates genetic, positional, and nutritional regulation of root plagiogravitropism
Basu Paramita,
Zhang Yuan-Ji,
Lynch Jonathan P., Brown Kathleen M.
Functional Plant Biology. 2007 34(1). p.41
Effects of different management systems on root distribution of maize
Wang Zhigang,
Ma Bao-Luo,
Gao Julin, Sun Jiying
Canadian Journal of Plant Science. 2015 95(1). p.21
Theoretical evidence for the functional benefit of root cortical aerenchyma in soils with low phosphorus availability
Postma Johannes A., Lynch Jonathan P.
Annals of Botany. 2011 107(5). p.829
Maize root growth angles become steeper under low N conditions
Trachsel S.,
Kaeppler S.M.,
Brown K.M., Lynch J.P.
Field Crops Research. 2013 140 p.18
Enviromental factors that determine responsiveness of plants to arbuscular mycorrhizal fungal inoculation
Koyama Takuya, Sato Takumi
Root Research. 2019 28(2). p.23
The Joint Application of Phosphorus and Ammonium Enhances Soybean Root Growth and P Uptake
Rosolem Ciro Antonio,
Batista Thiago Barbosa,
Dias Patrícia Pereira,
Motta Neto Laudelino Vieira da, Calonego Juliano Carlos
Agriculture. 2022 12(6). p.880
Roots of the Second Green Revolution
Lynch Jonathan P.
Australian Journal of Botany. 2007 55(5). p.493
Unravelling the Role of Rhizosphere Microbiome and Root Traits in Organic Phosphorus Mobilization for Sustainable Phosphorus Fertilization. A Review
Amadou Issifou,
Houben David, Faucon Michel-Pierre
Agronomy. 2021 11(11). p.2267
Root functional trait syndromes and plasticity drive the ability of grassland Fabaceae to tolerate water and phosphorus shortage
Fort Florian,
Cruz Pablo,
Catrice Olivier,
Delbrut Antoine,
Luzarreta Manuel,
Stroia Ciprian, Jouany Claire
Environmental and Experimental Botany. 2015 110 p.62
Developing phosphorus-efficient crop varieties—An interdisciplinary research framework
Manschadi Ahmad M.,
Kaul Hans-Peter,
Vollmann Johann,
Eitzinger Josef, Wenzel Walter
Field Crops Research. 2014 162 p.87
Plant and microbial strategies to improve the phosphorus efficiency of agriculture
Richardson Alan E.,
Lynch Jonathan P.,
Ryan Peter R.,
Delhaize Emmanuel,
Smith F. Andrew,
Smith Sally E.,
Harvey Paul R.,
Ryan Megan H.,
Veneklaas Erik J.,
Lambers Hans,
Oberson Astrid,
Culvenor Richard A., Simpson Richard J.
Plant and Soil. 2011 349(1-2). p.121
Identification of QTLs for relative root traits associated with phosphorus efficiency in two culture systems in Brassica napus
Wang Wei,
Zhang Ying,
Ding Guangda,
White Philip J.,
Broadley Martin R.,
Hammond John P.,
Jin Kemo,
Cai Hongmei,
Xu Fangsen, Shi Lei
Euphytica. 2019 215(11).
Reduced frequency of lateral root branching improves N capture from low-N soils in maize
Zhan Ai, Lynch Jonathan P.
Journal of Experimental Botany. 2015 66(7). p.2055
Transcriptomic and anatomical complexity of primary, seminal, and crown roots highlight root type-specific functional diversity in maize (Zea maysL.)
Tai Huanhuan,
Lu Xin,
Opitz Nina,
Marcon Caroline,
Paschold Anja,
Lithio Andrew,
Nettleton Dan, Hochholdinger Frank
Journal of Experimental Botany. 2016 67(4). p.1123
How can we harness quantitative genetic variation in crop root systems for agricultural improvement?
Topp Christopher N.,
Bray Adam L.,
Ellis Nathanael A., Liu Zhengbin
Journal of Integrative Plant Biology. 2016 58(3). p.213
Reprint of “Developing phosphorus-efficient crop varieties—An interdisciplinary research framework”
Manschadi Ahmad M.,
Kaul Hans-Peter,
Vollmann Johann,
Eitzinger Josef, Wenzel Walter
Field Crops Research. 2014 165 p.49
An evo-devo perspective on root genetic variation in cereals
Salvi Silvio
Journal of Experimental Botany. 2017 68(3). p.351
Genotypic difference in the plasticity of root system architecture of field-grown maize in response to plant density
Shao Hui,
Shi Dongfeng,
Shi Wenjun,
Ban Xiangben,
Chen Yachao,
Ren Wei,
Chen Fanjun, Mi Guohua
Plant and Soil. 2019 439(1-2). p.201
A Comparative Analysis of Quantitative Metrics of Root Architecture
Rangarajan Harini, Lynch Jonathan P.
Plant Phenomics. 2021 2021
Changing Climate and Resource Use Efficiency in Plants (2019)
The Plasticity of Root Systems in Response to External Phosphate
Huang Guoqiang, Zhang Dabing
International Journal of Molecular Sciences. 2020 21(17). p.5955
Shallower Root Spatial Distribution Induced by Phosphorus Deficiency Contributes to Topsoil Foraging and Low Phosphorus Adaption in Sugarcane (Saccharum officinarum L.)
Yi Ke,
Li Xiaofeng,
Chen Diwen,
Yang Shu,
Liu Ying,
Tang Xinlian,
Ling Guizhi, Zhao Zunkang
Frontiers in Plant Science. 2022 12
Will nutrient-efficient genotypes mine the soil? Effects of genetic differences in root architecture in common bean (Phaseolus vulgaris L.) on soil phosphorus depletion in a low-input agro-ecosystem in Central America
Henry Amelia,
Chaves Nestor F.,
Kleinman Peter J.A., Lynch Jonathan P.
Field Crops Research. 2010 115(1). p.67
Arabidopsis seedlings respond differentially to nutrient efficacy of three rock meals by regulating root architecture and endogenous auxin homeostasis
Zhang Tianjiao,
Zhang Sainan,
Yang Shaohui,
Zhang Jianchao,
Wang Jiehua, Teng H. Henry
BMC Plant Biology. 2023 23(1).
Changes in soil phosphorus fractions following sole cropped and intercropped maize and faba bean grown on calcareous soil
Liao Dan,
Zhang Chaochun,
Li Haigang,
Lambers Hans, Zhang Fusuo
Plant and Soil. 2020 448(1-2). p.587
Genetic dissection of crown root traits and their relationships with aboveground agronomic traits in maize
SHA Xiao-qian,
GUAN Hong-hui,
ZHOU Yu-qian,
SU Er-hu,
GUO Jian,
LI Yong-xiang,
ZHANG Deng-feng,
LIU Xu-yang,
HE Guan-hua,
LI Yu,
WANG Tian-yu,
ZOU Hua-wen, LI Chun-hui
Journal of Integrative Agriculture. 2023 22(11). p.3394
Sowing Density: A Neglected Factor Fundamentally Affecting Root Distribution and Biomass Allocation of Field Grown Spring Barley (Hordeum Vulgare L.)
Hecht Vera L.,
Temperton Vicky M.,
Nagel Kerstin A.,
Rascher Uwe, Postma Johannes A.
Frontiers in Plant Science. 2016 7
Understanding phosphorus dynamics on wheat plant under split-root system in alkaline soil
Shabnam Rubya, Iqbal Md Toufiq
Brazilian Journal of Science and Technology. 2016 3(1).
Phosphorus acquisition and internal utilization efficiency among maize landraces from the central Mexican highlands
Bayuelo-Jiménez Jeannette S., Ochoa-Cadavid Iván
Field Crops Research. 2014 156 p.123
RADIX: rhizoslide platform allowing high throughput digital image analysis of root system expansion
Le Marié Chantal,
Kirchgessner Norbert,
Flütsch Patrick,
Pfeifer Johannes,
Walter Achim, Hund Andreas
Plant Methods. 2016 12(1).
Cover crop forage potential and subsequent sorghum silage yield and nutritive value
Acharya Pramod,
Ghimire Rajan,
Lehnhoff Erik A., Marsalis Mark A.
Agronomy Journal. 2023 115(4). p.1723
Handbook of Maize: Its Biology (2009)
Root architecture for improved resource capture: trade-offs in complex environments
van der Bom Frederik J T,
Williams Alwyn,
Bell Michael J, Gifford Miriam
Journal of Experimental Botany. 2020 71(19). p.5752
Naturally occurring arbuscular mycorrhizal fungi can replace direct P uptake by wheat when roots cannot access added P fertiliser
Li Huiying,
Smith Sally E.,
Ophel-Keller Kathy,
Holloway Robert E., Smith F. Andrew
Functional Plant Biology. 2008 35(2). p.124
Effects of Carbon Amendments, Tillage and Cover Cropping on Arbuscular Mycorrhizal Fungi Association and Root Architecture in Corn and Cotton Crop Sequence
Thapa Binita, Mowrer Jake
Agronomy. 2022 12(9). p.2185
