Articles citing this paper
A Method of Applying Nutrients Locally to Roots Under Controlled Conditions, and Some Morphological Effects of Locally Applied Nitrate on the Branching of Wheat Roots
C Hackett
25(6) pp.1169 - 1180
84 articles found in Crossref database.
(2013)
In the land of plenty: catch crops trigger nitrogen uptake by soil microorganisms
in ‘t Zandt Dina,
Fritz Christian, Wichern Florian
Plant and Soil. 2018 423(1-2). p.549
Root development in winter wheat grown at different N/P supply: Root length patterns and N‐P interactions in phosphate uptake
Adalsteinsson Sveinn, Jensén Paul
Physiologia Plantarum. 1988 72(2). p.271
COMPARISON OF THE EFFECTS OF A LOCALISED SUPPLY OF PHOSPHATE, NITRATE, AMMONIUM AND POTASSIUM ON THE GROWTH OF THE SEMINAL ROOT SYSTEM, AND THE SHOOT, IN BARLEY
DREW M. C.
New Phytologist. 1975 75(3). p.479
The Ecophysiology of Plant-Phosphorus Interactions (2008)
Plant Nitrogen (2001)
Ion uptake and respiration of dry bean roots subjected to localized anoxia
Schumacher T. E., Smucker A. J. M.
Plant and Soil. 1987 99(2-3). p.411
Nitrate regulation of lateral root and root hair development in plants
Liu Bohan,
Wu Junyu,
Yang Shuaiqi,
Schiefelbein John,
Gan Yinbo, Xu Guohua
Journal of Experimental Botany. 2020 71(15). p.4405
Auxin transport in maize roots in response to localized nitrate supply
Liu Jinxin,
An Xia,
Cheng Lei,
Chen Fanjun,
Bao Juan,
Yuan Lixing,
Zhang Fusuo, Mi Guohua
Annals of Botany. 2010 106(6). p.1019
The Root Systems in Sustainable Agricultural Intensification (2021)
Plant-Environment Interactions, Third Edition (2006)
Molinia caerulea alters forest Quercus petraea seedling growth through reduced mycorrhization
Fernandez Marine,
Malagoli Philippe,
Vincenot Lucie,
Vernay Antoine,
Améglio Thierry,
Balandier Philippe, Martin Adam
AoB PLANTS. 2023 15(2).
The responses of lateral roots and root hairs to nitrogen stress in cotton based on daily root measurements
Zhu Lingxiao,
Liu Liantao,
Sun Hongchun,
Zhang Yongjiang,
Liu Xiuwei,
Wang Nan,
Chen Jing,
Zhang Ke,
Bai Zhiying,
Wang Guiyan,
Tian Liwen, Li Cundong
Journal of Agronomy and Crop Science. 2022 208(1). p.89
Identification of genes enriched in rice roots of the local nitrate treatment and their expression patterns in split-root treatment
Wang Xiaobing,
Wu Ping,
Xia Ming,
Wu Zhongchang,
Chen Qingshuang, Liu Feiyan
Gene. 2002 297(1-2). p.93
Plasticity of Lateral Root Branching in Maize
Yu Peng,
Hochholdinger Frank, Li Chunjian
Frontiers in Plant Science. 2019 10
An
Arabidopsis
MADS Box Gene That Controls Nutrient-Induced Changes in Root Architecture
Zhang Hanma, Forde Brian G.
Science. 1998 279(5349). p.407
Do plants need nitrate? The mechanisms by which nitrogen form affects plants
Andrews M.,
Raven J.A., Lea P.J.
Annals of Applied Biology. 2013 163(2). p.174
Annual Plant Reviews Volume 42 (2010)
Nitrogen application levels based on critical nitrogen absorption regulate processing tomatoes productivity, nitrogen uptake, nitrate distributions, and root growth in Xinjiang, China
Jing Bo,
Shi Wenjuan, Diao Ming
Journal of Arid Land. 2023 15(10). p.1231
The Role of Plant Roots in Crop Production (2012)
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).
Root avoidance of toxic metals requires the GeBP‐LIKE 4 transcription factor in Arabidopsis thaliana
Khare Deepa,
Mitsuda Nobukata,
Lee Seungchul,
Song Won‐Yong,
Hwang Daehee,
Ohme‐Takagi Masaru,
Martinoia Enrico,
Lee Youngsook, Hwang Jae‐Ung
New Phytologist. 2017 213(3). p.1257
High-resolution quantification of root dynamics in split-nutrient rhizoslides reveals rapid and strong proliferation of maize roots in response to local high nitrogen
in ‘t Zandt Dina,
Le Marié Chantal,
Kirchgessner Norbert,
Visser Eric J.W., Hund Andreas
Journal of Experimental Botany. 2015 66(18). p.5507
Annual Plant Reviews online (2018)
Local NO3− or NH4+ supply modifies the root system architecture of Cedrus atlantica seedlings grown in a split-root device
Boukcim Hassan,
Pagès Loïc, Mousain Daniel
Journal of Plant Physiology. 2006 163(12). p.1293
Root proliferation in recent and weathered sandy soils from Veracruz, Mexico
Kellman Martin
Journal of Tropical Ecology. 1990 6(3). p.355
Localised nitrate and phosphate application enhances root proliferation by wheat and maximises rhizosphere alkalisation in acid subsoil
Weligama C.,
Tang C.,
Sale P. W. G.,
Conyers M. K., Liu D. L.
Plant and Soil. 2008 312(1-2). p.101
Optimizing water and nitrogen management can enhance nitrogen heterogeneity and stimulate root foraging
Wu Baojian,
Yang Pei,
Zuo Wenqing, Zhang Wangfeng
Field Crops Research. 2023 304 p.109183
Phosphorus sources and availability modify growth and distribution of root clusters and nodules of native Australian legumes
Adams M. A.,
Bell T. L., Pate J. S.
Plant, Cell & Environment. 2002 25(7). p.837
Ecology in Agriculture (1997)
Progress in Botany (2004)
Regulation of Arabidopsis root development by nitrate availability
Zhang Hanma, Forde Brian G.
Journal of Experimental Botany. 2000 51(342). p.51
Root Development and Absorption of Ammonium and Nitrate from the Rhizosphere
Bloom Arnold J.,
Meyerhoff Paul A.,
Taylor Alison R., Rost Thomas L.
Journal of Plant Growth Regulation. 2002 21(4). p.416
Repression of early lateral root initiation events by transient water deficit in barley and maize
Babé Aurélie,
Lavigne Tristan,
Séverin Jean-Philippe,
Nagel Kerstin A.,
Walter Achim,
Chaumont François,
Batoko Henri,
Beeckman Tom, Draye Xavier
Philosophical Transactions of the Royal Society B: Biological Sciences. 2012 367(1595). p.1534
Mineral Nutrition of Fruit Trees (1980)
Annual Plant Reviews online (2018)
Identification of a new small GTP-binding protein gene OsRab5a, genomic organization, and expression pattern analysis during nitrate supply and early nutrient starvation in rice (Oryza sativa L.) root
Wang Xiaobing,
Xia Ming,
Chen Qingshuang,
Wu Zhongchang, Wu Ping
Plant Science. 2002 163(2). p.273
Farm management and the function of field crop root systems
Klepper Betty,
Rickman R.W., Taylor H.M.
Agricultural Water Management. 1983 7(1-3). p.115
Exogenous nitrate induces root branching and inhibits primary root growth in Capsicum chinense Jacq.
Celis-Arámburo Teresita de Jesús,
Carrillo-Pech Mildred,
Castro-Concha Lizbeth A.,
Miranda-Ham María de Lourdes,
Martínez-Estévez Manuel, Echevarría-Machado Ileana
Plant Physiology and Biochemistry. 2011 49(12). p.1456
Effect of inorganic nutrition on the formation of lateral roots in Dracaena fragrans Ker-Gawl cultured in vitro
Vinterhalter D., Vinterhalter Branka
Plant Cell, Tissue and Organ Culture. 1992 28(3). p.267
Limited effects of soil nutrient heterogeneity on populations ofAbutilon theophrasti(Malvaceae)
Casper Brenda B., Cahill James F.
American Journal of Botany. 1996 83(3). p.333
The significance of solution flow rate in flowing culture experiments
Edwards D. G., Asher C. J.
Plant and Soil. 1974 41(1). p.161
Density-dependent habitat selection in plants
Gersani M.,
Abramsky Z., Falik O.
Evolutionary Ecology. 1998 12(2). p.223
Control of plant development by limiting factors: A nutritional perspective
McIntyre Gordon I.
Physiologia Plantarum. 2001 113(2). p.165
Optimization of Plant Nutrition (1993)
The responses of plants to non‐uniform supplies of nutrients
ROBINSON DAVID
New Phytologist. 1994 127(4). p.635
Overexpressing the ANR1 MADS-Box Gene in Transgenic Plants Provides New Insights into its Role in the Nitrate Regulation of Root Development
Gan Yinbo,
Bernreiter Andreas,
Filleur Sophie,
Abram Beverley, Forde Brian G.
Plant and Cell Physiology. 2012 53(6). p.1003
AN ARCHITECTURAL APPROACH TO THE COMPARATIVE ECOLOGY OF PLANT ROOT SYSTEMS
FITTER A. H.
New Phytologist. 1987 106(s1). p.61
Annual Plant Reviews Volume 42 (2010)
Root growth as a function of ammonium and nitrate in the root zone
BLOOM A. J.,
JACKSON L. E., SMART D. R.
Plant, Cell & Environment. 1993 16(2). p.199
Nitrate and glutamate as environmental cues for behavioural responses in plant roots
FORDE BRIAN G., WALCH‐LIU PIA
Plant, Cell & Environment. 2009 32(6). p.682
Cotton root and shoot response to localized supply of nitrate, phosphate and potassium: Split-pot studies with nutrient solution and vermiculitic soil
Brouder S. M., Cassman K. G.
Plant and Soil. 1994 161(2). p.179
SUBSOIL ROOT GROWTH OF FIELD GROWN SPRING WHEAT GENOTYPES (TRITICUM AESTIVUML.) DIFFERING IN NITROGEN USE EFFICIENCY PARAMETERS
Noulas Christos,
Liedgens Markus,
Stamp Peter,
Alexiou Ioannis, Herrera Juan M.
Journal of Plant Nutrition. 2010 33(13). p.1887
Sulfur affects root growth and improves nitrogen recovery and internal efficiency in wheat
Carciochi Walter D.,
Divito Guillermo A.,
Fernández Lucrecia A., Echeverría Hernán E.
Journal of Plant Nutrition. 2017 40(9). p.1231
The intersection of nitrogen nutrition and water use in plants: new paths toward improved crop productivity
Plett Darren C,
Ranathunge Kosala,
Melino Vanessa J,
Kuya Noriyuki,
Uga Yusaku,
Kronzucker Herbert J, Xu Guohua
Journal of Experimental Botany. 2020 71(15). p.4452
Desirable plant root traits for protecting natural and engineered slopes against landslides
Stokes Alexia,
Atger Claire,
Bengough Anthony Glyn,
Fourcaud Thierry, Sidle Roy C.
Plant and Soil. 2009 324(1-2). p.1
Application of calcium nitrate with phosphorus promotes rhizosphere alkalization in acid subsoil
Weng Zhe (Han),
Li Guangdi,
Sale Peter, Tang Caixian
European Journal of Soil Science. 2022 73(1).
A COMPARISON OF THE RESPONSES OF LOLIUM PERENNE L. *, HOLCUS LANATUS L. AND DESCHAMPSIA FLEXUOSA (L.) TRIN. TO A LOCALIZED SUPPLY OF NITROGEN
ROBINSON D., RORISON I. H.
New Phytologist. 1983 94(2). p.263
The Root Systems in Sustainable Agricultural Intensification (2021)
Changes in the Amount and Distribution of Soil Nutrients and Neighbours Have Differential Impacts on Root and Shoot Architecture in Wheat (Triticum aestivum)
Mahal Habba F.,
Barber-Cross Tianna,
Brown Charlotte,
Spaner Dean, Cahill James F.
Plants. 2023 12(13). p.2527
Nitrate leaching stimulates subsurface root growth of wheat and increases rhizosphere alkalisation in a highly acidic soil
Weligama C.,
Sale P. W. G.,
Conyers M. K.,
Liu D. L., Tang C.
Plant and Soil. 2010 328(1-2). p.119
MODIFICATION OF RESPIRATION AND CARBOHYDRATE STATUS OF BARLEY ROOTS BY SELECTIVE PRUNING
FARRAR J. F., JONES C. L.
New Phytologist. 1986 102(4). p.513
Genetic Control of Lateral Root Formation in Cereals
Yu Peng,
Gutjahr Caroline,
Li Chunjian, Hochholdinger Frank
Trends in Plant Science. 2016 21(11). p.951
Nitrogen nutrition of sunflower (Helianthus annuus L.): Acquisition and partitioning of dry matter and nitrogen by vegetative organs and their relationship to seed yield
Steer B.T., Hocking P.J.
Field Crops Research. 1984 9 p.237
Molecular and Developmental Biology of Inorganic Nitrogen Nutrition
Crawford Nigel M., Forde Brian G.
The Arabidopsis Book. 2002 1 p.e0011
Combined effects of contrast between poor and rich patches and overall nitrate concentration on Arabidopsis thaliana root system structure
Blouin Manuel, Puga-Freitas Ruben
Functional Plant Biology. 2011 38(5). p.364
Differential responses of root growth to nutrition with different ammonium/nitrate ratios involve auxin distribution in two tobacco cultivars
MENG Lin,
DONG Jian-xin,
WANG Shu-sheng,
SONG Ke,
LING Ai-fen,
YANG Jin-guang,
XIAO Zhi-xin,
LI Wei,
SONG Wen-jing, LIANG Hong-bo
Journal of Integrative Agriculture. 2019 18(12). p.2703
Development correlations between roots in heterogeneous environments
GERSANI M., SACHS T.
Plant, Cell & Environment. 1992 15(4). p.463
Structure and physiology of Sitka spruce roots
Coutts M. P., Philipson J. J.
Proceedings of the Royal Society of Edinburgh. Section B. Biological Sciences. 1987 93(1-2). p.131
Rooting pattern, nutrient uptake and yield of pearl millet (Pennisetum typhoideum pers.) and cotton (Gossypium herbaceum) as affected by nutrient availability from the surface and subsurface soil layers
Kapur M.L., Sekhon G.S.
Field Crops Research. 1985 10 p.77
plant production and management under drought conditions (1983)
Root Plasticity Not Evident in N-Enriched Soil Volumes for Wheat (Triticum aestivumL.) and Barley (Hordeum vulgareL.) Varieties
Rabbi Sheikh M. F.,
Guppy Chris,
Flavel Richard,
Tighe Matthew, Young Iain
Communications in Soil Science and Plant Analysis. 2017 48(17). p.2002
Roots of the Second Green Revolution
Lynch Jonathan P.
Australian Journal of Botany. 2007 55(5). p.493
Growth substance sensitivity: The limiting factor in plant development
Trewavas A. J.
Physiologia Plantarum. 1982 55(1). p.60
Interactions in the Root Environment: An Integrated Approach (2002)
Effects of nitrogen and early irrigation on root development and water use by wheat on two soils
Gajri P.R.,
Prihar S.S., Arora V.K.
Field Crops Research. 1989 21(2). p.103
Advances in Botanical Research Volume 10 (1983)
Mineral Nitrogen in the Plant–Soil System (1986)
Influence of Inorganic Nitrogen and pH on the Elongation of Maize Seminal Roots
BLOOM ARNOLD J.,
FRENSCH JÜRGEN, TAYLOR ALISON R.
Annals of Botany. 2006 97(5). p.867
The Soil–Root Interface (1979)
Dual pathways for regulation of root branching by nitrate
Zhang Hanma,
Jennings Andrea,
Barlow Peter W., Forde Brian G.
Proceedings of the National Academy of Sciences. 1999 96(11). p.6529
Interactions between Inorganic Nitrogen Nutrition and Root Development
Bloom Arnold J.
Zeitschrift für Pflanzenernährung und Bodenkunde. 1997 160(2). p.253
Agronomic improvements through the genetic and physiological regulation of nitrogen uptake in wheat (Triticum aestivum L.)
Kong Lingan,
Wang Fahong,
López-bellido Luis,
Garcia-mina Jose Maria, Si Jisheng
Plant Biotechnology Reports. 2013 7(2). p.129
Genetic diversity for root plasticity and nitrogen uptake in wheat seedlings
Melino Vanessa J.,
Fiene Gabriele,
Enju Akiko,
Cai Jinhai,
Buchner Peter, Heuer Sigrid
Functional Plant Biology. 2015 42(10). p.942
