Articles citing this paper
The effect of dwarfing genes in spring wheat in dry environments. II. Growth, water use and water-use efficiency
RA Richards
43(3) pp.529 - 539
85 articles found in Crossref database.
Investigating early vigour in upland rice (Oryza sativa L.): Part II. Identification of QTLs controlling early vigour under greenhouse and field conditions
Cairns J.E.,
Namuco O.S.,
R.Torres ,
Simborio F.A.,
Courtois B.,
Aquino G.A., Johnson D.E.
Field Crops Research. 2009 113(3). p.207
Irrigation of Agricultural Crops (2015)
Crop and environmental attributes underpinning genotype by environment interaction in synthetic-derived bread wheat evaluated in Mexico and Australia
Dreccer M. Fernanda,
Chapman Scott C.,
Ogbonnaya Francis C.,
Borgognone M. Gabriela, Trethowan R. M.
Australian Journal of Agricultural Research. 2008 59(5). p.447
Plant Breeding Reviews (2012)
Chromosome mapping of four novel mutants in bread wheat (Triticum aestivum L.)
Agarwal Priyanka,
Jaiswal Vandana,
Kumar Sachin,
Balyan Harindra Singh, Gupta Pushpendra Kumar
Acta Physiologiae Plantarum. 2015 37(3).
Expression of Dwarfing Genes under Nitrogen and Moisture Stress in Wheat (Triticumspp): Dry Matter Partitioning, Root Growth and Leaf Nitrogen
Arora A., Mohan J.
Journal of Agronomy and Crop Science. 2001 186(2). p.111
Genetic Analysis of Response to Water Deficit Stress in Wheat Yield Traits with Generation Means and Variance Analysis
Asadi Ali Akbar,
Valizadeh Mostafa,
Mohammadi Seyed Abolghasem, Khodarahmi Manochehr
Journal of Crop Breeding. 2019 11(32). p.88
Pulse ideotypes for abiotic constraint alleviation in Australia
Rao Shiwangni,
Silva-Perez Viridiana,
Armstrong Roger,
Tefera Abeya Temesgen,
Brand Jason,
Riffkin Penny, Rosewarne Garry
Plant and Soil. 2023 492(1-2). p.1
Genetic Analyses of Wheat and Molecular Marker-Assisted Breeding, Volume 1 (2015)
Improved drought tolerance in wheat is required to unlock the production potential of the Brazilian Cerrado
Pereira Jorge Fernando,
Cunha Gilberto Rocca da, Moresco Edina Regina
Crop Breeding and Applied Biotechnology. 2019 19(2). p.217
A QTL on chromosome 6A in bread wheat (Triticum aestivum) is associated with longer coleoptiles, greater seedling vigour and final plant height
Spielmeyer W.,
Hyles J.,
Joaquim P.,
Azanza F.,
Bonnett D.,
Ellis M. E.,
Moore C., Richards R. A.
Theoretical and Applied Genetics. 2007 115(1). p.59
Individual grain weight responses to genetic reduction in culm length in wheat as affected by source-sink manipulations
Miralles Daniel J., Slafer Gustavo A.
Field Crops Research. 1995 43(2-3). p.55
Ideotype design for lodging-resistant wheat
Berry P. M.,
Sylvester-Bradley R., Berry S.
Euphytica. 2007 154(1-2). p.165
Spike Fertility and Duration of Stem Elongation as Promising Traits to Improve Potential Grain Number (and Yield): Variation in Modern Argentinean Wheats
González F. G.,
Terrile I. I., Falcón M. O.
Crop Science. 2011 51(4). p.1693
Threshhold for recovery in the marsh halophyte Spartina alterniflora grown under the combined effects of salinity and soil drying
Brown Christopher E., Pezeshki S. Reza
Journal of Plant Physiology. 2007 164(3). p.274
Genetic mapping of gibberellic acid-sensitive genes for semi-dwarfism in durum wheat
Haque M.,
Martinek P.,
Watanabe N., Kuboyama T.
Cereal Research Communications. 2011 39(2). p.171
The dwarf gene Rht15 improved lodging resistance but differentially affected agronomic and quality traits in durum wheat
Zhao Zhangchen,
Duan Shan,
Hao Jiamin,
Cui Chunge,
Yang Yang,
Condon Anthony G.,
Chen Feng,
Hu Yin-Gang, Chen Liang
Field Crops Research. 2021 263 p.108058
Breeding effects on dry matter accumulation and partitioning in Spanish bread wheat during the 20th century
Sanchez-Garcia Miguel,
Álvaro Fanny,
Peremarti Ariadna,
Trevaskis Ben,
Martín-Sánchez Juan A., Royo Conxita
Euphytica. 2015 203(2). p.321
Growth and δ13C Responses to Increasing Atmospheric Carbon Dioxide Concentrations for Several Crop Species
Hanba Y. T.,
Wada E.,
Osaki M., Nakamura T.
Isotopes in Environmental and Health Studies. 1996 32(1). p.41
Triticum polonicum IC12196: a possible alternative source of GA3-insensitive semi-dwarfism
Watanabe N.
Cereal Research Communications. 2004 32(4). p.429
Quantifying genetic effects of ground cover on soil water evaporation using digital imaging
Mullan Daniel J., Reynolds Matthew P.
Functional Plant Biology. 2010 37(8). p.703
Breeding Opportunities for Increasing the Efficiency of Water Use and Crop Yield in Temperate Cereals
Richards R. A.,
Rebetzke G. J.,
Condon A. G., van Herwaarden A. F.
Crop Science. 2002 42(1). p.111
Relationship between grain yield and carbon isotope discrimination in bread wheat under four water regimes
Monneveux Philippe,
Reynolds Matthew P.,
Trethowan Richard,
González-Santoyo Hector,
Peña Roberto J., Zapata Felipe
European Journal of Agronomy. 2005 22(2). p.231
Breeding crops for reduced-tillage management in the intensive, rice–wheat systems of South Asia
Joshi A. K.,
Chand R.,
Arun B.,
Singh R. P., Ortiz Rodomiro
Euphytica. 2007 153(1-2). p.135
Plant Roots (2006)
Selectable traits to increase crop photosynthesis and yield of grain crops
Richards R.A.
Journal of Experimental Botany. 2000 51(suppl_1). p.447
(2001)
Historical analysis of the effects of breeding on the height of winter wheat (Triticum aestivum) and consequences for lodging
Berry P. M.,
Kendall S.,
Rutterford Z.,
Orford S., Griffiths S.
Euphytica. 2015 203(2). p.375
Identification of a GA-insensitive semi-dwarf locus on chromosomes 2D of wheat (Triticum aestivum) and its relationship with earliness and growth characteristics using selected chromosomal substitution lines
Mohammady Shahram, Davoodi Maryam
Acta Physiologiae Plantarum. 2023 45(1).
Plant Breeding Reviews (1994)
Combining gibberellic acid-sensitive and insensitive dwarfing genes in breeding of higher-yielding, sesqui-dwarf wheats
Rebetzke G.J.,
Bonnett D.G., Ellis M.H.
Field Crops Research. 2012 127 p.17
Effects of the GA-responsive dwarfing gene Rht18 from tetraploid wheat on agronomic traits of common wheat
Yang Zhiyuan,
Zheng Jiacheng,
Liu Caiyun,
Wang Yushen,
Condon Anthony Gerard,
Chen Yaofeng, Hu Yin-Gang
Field Crops Research. 2015 183 p.92
Breeding for improved water productivity in temperate cereals: phenotyping, quantitative trait loci, markers and the selection environment
Richards Richard A.,
Rebetzke Greg J.,
Watt Michelle,
Condon A. G. (Tony),
Spielmeyer Wolfgang, Dolferus Rudy
Functional Plant Biology. 2010 37(2). p.85
Height reduction and agronomic performance for selected gibberellin-responsive dwarfing genes in bread wheat (Triticum aestivum L.)
Rebetzke G.J.,
Ellis M.H.,
Bonnett D.G.,
Mickelson B.,
Condon A.G., Richards R.A.
Field Crops Research. 2012 126 p.87
Reduced height (Rht) and photoperiod insensitivity (Ppd) allele associations with establishment and early growth of wheat in contrasting production systems
Addisu M.,
Snape J. W.,
Simmonds J. R., Gooding M. J.
Euphytica. 2009 166(2).
Genotype and fungicide effects on late-season root growth of winter wheat
Ford K. E.,
Gregory P. J.,
Gooding M. J., Pepler S.
Plant and Soil. 2006 284(1-2). p.33
Comparing the effects of GA-responsive dwarfing genes Rht13 and Rht8 on plant height and some agronomic traits in common wheat
Wang Yushen,
Du Yingying,
Yang Zhiyuan,
Chen Liang,
Condon Anthony Gerard, Hu Yin-Gang
Field Crops Research. 2015 179 p.35
Contribution of green organs to grain weight in dryland wheat from the 1940s to the 2010s in Shaanxi Province, China
Sun Yingying,
Zhang Suiqi, Yan Jiakun
Scientific Reports. 2021 11(1).
Effect of gibberellin-sensitive Rht18 and gibberellin-insensitive Rht-D1b dwarfing genes on vegetative and reproductive growth in bread wheat
Tang Ting,
Botwright Acuña Tina,
Spielmeyer Wolfgang,
Richards Richard A, Uauy Cristobal
Journal of Experimental Botany. 2021 72(2). p.445
Traits associated with winter wheat grain yield in Central and West Asia
Lopes Marta Silva,
Saglam Didem,
Ozdogan Mutlu, Reynolds Matthew
Journal of Integrative Plant Biology. 2014 56(7). p.673
The potential for selecting wheat varieties strongly competitive against weeds
LEMERLE D.,
VERBEEK B.,
COUSENS R.D., COOMBES N E
Weed Research. 1996 36(6). p.505
Grain number determination in durum wheat as affected by drought stress: An analysis at spike and spikelet level
Vahamidis Petros,
Karamanos Andreas J., Economou Garyfalia
Annals of Applied Biology. 2019 174(2). p.190
Morphological Characterization and Transcriptome Analysis of New Dwarf and Narrow-Leaf (dnl2) Mutant in Maize
Han Lulu,
Jiang Chenggong,
Zhang Wei,
Wang Hongwu,
Li Kun,
Liu Xiaogang,
Liu Zhifang,
Wu Yujin,
Huang Changling, Hu Xiaojiao
International Journal of Molecular Sciences. 2022 23(2). p.795
Dwarfing genes Rht4 and Rht-B1b affect plant height and key agronomic traits in common wheat under two water regimes
Liu Yuxiu,
Zhang Junli,
Hu Yin-Gang, Chen Jianli
Field Crops Research. 2017 204 p.242
Effects of differentRht-B1b, Rht-D1b and Rht-B1cdwarfing genes on agronomic characteristics in wheat
Li Xing-Pu,
Lan Su-Que,
Liu Yu-Ping,
Gale M., Worland T.
Cereal Research Communications. 2006 34(2-3). p.919
Genetic effect of dwarfing gene Rht13 compared with Rht-D1b on plant height and some agronomic traits in common wheat (Triticum aestivum L.)
Wang Yushen,
Chen Liang,
Du Yingying,
Yang Zhiyuan,
Condon Anthony Gerard, Hu Yin-Gang
Field Crops Research. 2014 162 p.39
Advances in Molecular Breeding Toward Drought and Salt Tolerant Crops (2007)
GA-Responsive Dwarfing Gene Rht12 Affects the Developmental and Agronomic Traits in Common Bread Wheat
Chen Liang,
Phillips Andrew L.,
Condon Anthony G.,
Parry Martin A. J.,
Hu Yin-Gang, Blazquez Miguel A.
PLoS ONE. 2013 8(4). p.e62285
Effects of Vrn-B1 and Ppd-D1 on developmental and agronomic traits in Rht5 dwarf plants of bread wheat
Chen Liang,
Yang Yang,
Cui Chunge,
Lu Shan,
Lu Qiumei,
Du Yingying,
Su Rina,
Chai Yongmao,
Li Huijuan,
Chen Fangzhen,
Yu Fei, Hu Yin-Gang
Field Crops Research. 2018 219 p.24
A new approach to quantify weed suppression, crop tolerance and weed‐free yield in cereal variety trials without weed‐free plots
Rasmussen Jesper,
Jensen Signe M., Mariegaard Pedersen Tove
Weed Research. 2021 61(5). p.406
Green revolution ‘stumbles’ in a dry environment: Dwarf wheat with Rht genes fails to produce higher grain yield than taller plants under drought
Jatayev Satyvaldy,
Sukhikh Igor,
Vavilova Valeriya,
Smolenskaya Svetlana E.,
Goncharov Nikolay P.,
Kurishbayev Akhylbek,
Zotova Lyudmila,
Absattarova Aiman,
Serikbay Dauren,
Hu Yin‐Gang,
Borisjuk Nikolai,
Gupta Narendra K.,
Jacobs Bertus,
de Groot Stephan,
Koekemoer Francois,
Alharthi Badr,
Lethola Katso,
Cu Dan T.,
Schramm Carly,
Anderson Peter,
Jenkins Colin L. D.,
Soole Kathleen L.,
Shavrukov Yuri, Langridge Peter
Plant, Cell & Environment. 2020 43(10). p.2355
Perspectives to breed for improved baking quality wheat varieties adapted to organic growing conditions
Osman Aart M,
Struik Paul C, Lammerts van Bueren Edith T
Journal of the Science of Food and Agriculture. 2012 92(2). p.207
Drought Tolerance in Higher Plants: Genetical, Physiological and Molecular Biological Analysis (1996)
Phenotypic effects of the dwarfing gene Rht-17 in spring durum wheat under two climatic conditions
Chernook A. G.,
Kroupin P. Yu.,
Bespalova L. A.,
Panchenko V. V.,
Kovtunenko V. Ya.,
Bazhenov M. S.,
Nazarova L. A.,
Karlov G. I.,
Kroupina A. Yu., Divashuk M. G.
Vavilov Journal of Genetics and Breeding. 2019 23(7). p.916
Developing a tall durum wheat plant type for semi-arid, Mediterranean cereal–livestock farming systems
Annicchiarico Paolo, Pecetti Luciano
Field Crops Research. 2003 80(2). p.157
Defining selection criteria to improve yield under drought
Richards R.A.
Plant Growth Regulation. 1996 20(2). p.157
Study on Relationship between Visitor Value, Degree of Satisfaction and Loyalty in Musical Festival Activity
Chung Cheng-Wei
Journal of Service Science and Management. 2014 07(06). p.390
Quantitative trait loci for carbon isotope discrimination are repeatable across environments and wheat mapping populations
Rebetzke G. J.,
Condon A. G.,
Farquhar G. D.,
Appels R., Richards R. A.
Theoretical and Applied Genetics. 2008 118(1). p.123
Nitrogen and water use efficiencies of wheat and barley under a Mediterranean environment in Catalonia
Cossani C. Mariano,
Slafer Gustavo A., Savin Roxana
Field Crops Research. 2012 128 p.109
Agronomic Performance of Rht Alleles in a Spring Wheat Population across a Range of Moisture Levels
Butler Joshua D.,
Byrne Patrick F.,
Mohammadi Valiollah,
Chapman Phillip L., Haley Scott D.
Crop Science. 2005 45(3). p.939
A pleiotropic QTL increased economic water use efficiency in bread wheat (Triticum aestivum L.)
Hui Jian,
Bai Haibo,
Lyu Xuelian,
Ma Sishuang,
Chen Xiaojun, Li Shuhua
Frontiers in Plant Science. 2023 13
Microsatellite mapping of genes for semi-dwarfism and branched spike in Triticum durum Desf. var. ramosoobscurum Jakubz. “Vetvistokoloskaya”
Haque M. A.,
Martinek P.,
Kobayashi S.,
Kita I.,
Ohwaku K.,
Watanabe N., Kuboyama T.
Genetic Resources and Crop Evolution. 2012 59(5). p.831
Wild-type alleles of Rht-B1 and Rht-D1 as independent determinants of thousand-grain weight and kernel number per spike in wheat
Zhang Jingjuan,
Dell Bernard,
Biddulph Ben,
Drake-Brockman Fiona,
Walker Esther,
Khan Nusrat,
Wong Debbie,
Hayden Matthew, Appels Rudi
Molecular Breeding. 2013 32(4). p.771
Türkiye Ekmeklik Buğday Genotiplerinde Tescil Yılı ile Bitki Boyu, Çim Kını Uzunluğu ve Tane Verimi Arasındaki İlişkiler
BAYRAM Sinan,
ÖZTÜRK Ali, AYDIN Murat
Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi. 2017 p.7
Integrating genetic information into plant breeding programmes: how will we produce varieties from molecular variation, using bioinformatics?
MAYES SEAN,
PARSLEY KATE,
SYLVESTER-BRADLEY ROGER,
MAY SEAN, FOULKES JOHN
Annals of Applied Biology. 2005 146(2). p.223
Exogenous GA3 Application Can Compensate the Morphogenetic Effects of the GA-Responsive Dwarfing Gene Rht12 in Bread Wheat
Chen Liang,
Hao Liugen,
Condon Anthony G.,
Hu Yin-Gang, Zhang Tianzhen
PLoS ONE. 2014 9(1). p.e86431
Handbook of Plant Biotechnology (2004)
Characteristics of a New Dwarfing Mutant Yingai 1 in Wheat (Tr. aestivum)
孙 利
Hans Journal of Agricultural Sciences. 2020 10(01). p.35
Opportunities to reduce heat damage in rain-fed wheat crops based on plant breeding and agronomic management
Hunt James R.,
Hayman Peter T.,
Richards Richard A., Passioura John B.
Field Crops Research. 2018 224 p.126
Genotype × management strategies to stabilise the flowering time of wheat in the south-eastern Australian wheatbelt
Flohr B. M.,
Hunt J. R.,
Kirkegaard J. A.,
Evans J. R., Lilley J. M.
Crop and Pasture Science. 2018 69(6). p.547
Shaping polyploid wheat for success: Origins, domestication, and the genetic improvement of agronomic traits
Liu Jie,
Yao Yingyin,
Xin Mingming,
Peng Huiru,
Ni Zhongfu, Sun Qixin
Journal of Integrative Plant Biology. 2022 64(2). p.536
Reduced tillering and dwarfing genes alter root traits and rhizo‐economics in wheat
Li Xiaoqing,
He Di,
White Rosemary G.,
Delhaize Emmanuel,
Ryan Peter R.,
Ingvordsen Cathrine H.,
Scafaro Andrew P.,
Atkin Owen K.,
Wasson Anton, Richards Richard
Physiologia Plantarum. 2024 176(3).
Yield Physiology of a Semidwarf and Tall Oat Cultivar
Rocquigny Pamela J.,
Entz Martin H.,
Gentile Roberta M., Duguid Scott D.
Crop Science. 2004 44(6). p.2116
Stable Isotopes and Plant Carbon-water Relations (1993)
Great Plains Winter Wheat Varies for Root Length and Diameter under Drought Stress
Awad Wahid,
Byrne Patrick F.,
Reid Scott D.,
Comas Louise H., Haley Scott D.
Agronomy Journal. 2018 110(1). p.226
Physiological traits and cereal germplasm for sustainable agricultural systems
Richards R. A.,
Watt M., Rebetzke G. J.
Euphytica. 2007 154(3). p.409
Tall 3-dwarfs: oxymoron or opportunity to increase grain yield in sorghum?
George-Jaeggli Barbara,
Lefèvre-Arbogast Sophie,
Hunt Colleen,
Cruickshank Alan, Jordan David R.
Planta. 2021 253(5).
Genomic dissection of drought resistance in durum wheat × wild emmer wheat recombinant inbreed line population
PELEG ZVI,
FAHIMA TZION,
KRUGMAN TAMAR,
ABBO SHAHAL,
YAKIR DAN,
KOROL ABRAHAM B., SARANGA YEHOSHUA
Plant, Cell & Environment. 2009 32(7). p.758
Mapping gibberellin-sensitive dwarfing locus Rht18 in durum wheat and development of SSR and SNP markers for selection in breeding
Vikhe Parimal,
Patil Ravindra,
Chavan Ajit,
Oak Manoj, Tamhankar Shubhada
Molecular Breeding. 2017 37(3).
The effects of dwarfing genes on seedling root growth of wheat
Wojciechowski T.,
Gooding M.J.,
Ramsay L., Gregory P.J.
Journal of Experimental Botany. 2009 60(9). p.2565
Molecular mapping of genes for Coleoptile growth in bread wheat (Triticum aestivum L.)
Rebetzke G. J.,
Ellis M. H.,
Bonnett D. G., Richards R. A.
Theoretical and Applied Genetics. 2007 114(7). p.1173
Phenology and Dwarfing Gene Interaction Effects on the Adaptation of Selected Wheat (Triticum aestivum L.) Advanced Lines across Diverse Water-Limited Environments of Western Australia
Dowla Mirza A.N.N.U.,
Islam Shahidul,
Stefanova Katia,
Hara Graham O’,
Ma Wujun, Edwards Ian
Agriculture. 2020 10(10). p.470
The Other Mechanisms by Which the Rht Genes Improve the Harvest Index of Wheat
Ukozehasi Celestin,
Ober Eric S., Griffiths Howard
Plants. 2022 11(21). p.2837
Physiology and Biotechnology Integration for Plant Breeding (2004)
Agronomic performance of durum wheat landraces and modern cultivars and its association with genotypic variation in vernalization response (Vrn-1) and photoperiod sensitivity (Ppd-1) genes
Royo Conxita,
Dreisigacker Susanne,
Ammar Karim, Villegas Dolors
European Journal of Agronomy. 2020 120 p.126129
