Articles citing this paper
Spikelet Number, Its Control and Relation to Yield Per Ear in Wheat
HM Rawson
23(1) pp.1 - 16
65 articles found in Crossref database.
Partitioning of photosynthates between growing panicle and vegetative parts before anthesis
Fujita Kounosuke, Yoshida Shouichi
Soil Science and Plant Nutrition. 1984 30(4). p.509
Vernalization requirements of Kernza intermediate wheatgrass
Locatelli Andrés,
Gutierrez Lucia, Picasso Risso Valentin D.
Crop Science. 2022 62(1). p.524
Grain yield analysis of a triticale (×Triticosecale Wittmack) collection grown in a Mediterranean environment
Giunta F,
Motzo R, Deidda M
Field Crops Research. 1999 63(3). p.199
Grain number and grain yield distribution along the spike remain stable despite breeding for high yield in winter wheat
Philipp Norman,
Weichert Heiko,
Bohra Utkarsh,
Weschke Winfriede,
Schulthess Albert Wilhelm,
Weber Hans, Zhang Aimin
PLOS ONE. 2018 13(10). p.e0205452
Does temperature affect final numbers of primordia in wheat?
Slafer Gustavo A., Rawson H.M.
Field Crops Research. 1994 39(2-3). p.111
Mapping of QTL for total spikelet number per spike on chromosome 2D in wheat using a high-density genetic map
Deng Mei,
Wu Fangkun,
Zhou Wanlin,
Li Jing,
Shi Haoran,
Wang Zhiqiang,
Lin Yu,
Yang Xilan,
Wei Yuming,
Zheng Youliang, Liu Yaxi
Genetics and Molecular Biology. 2019 42(3). p.603
Genetic modification of spikelet arrangement in wheat increases grain number without significantly affecting grain weight
Wolde Gizaw M.,
Mascher Martin, Schnurbusch Thorsten
Molecular Genetics and Genomics. 2019 294(2). p.457
Multi-locus genome-wide association mapping for spike-related traits in bread wheat (Triticum aestivum L.)
Malik Parveen,
Kumar Jitendra,
Sharma Shiveta,
Sharma Rajiv, Sharma Shailendra
BMC Genomics. 2021 22(1).
Effects of photoperiod, temperature and vernalization on the phenology and spikelet numbers of spring wheats
WALL P. C., CARTWRIGHT P. M.
Annals of Applied Biology. 1974 76(3). p.299
Base and optimum temperatures vary with genotype and stage of development in wheat
SLAFER G. A., RAWSON H. M.
Plant, Cell & Environment. 1995 18(6). p.671
A Wheat Spike Detection Method in UAV Images Based on Improved YOLOv5
Zhao Jianqing,
Zhang Xiaohu,
Yan Jiawei,
Qiu Xiaolei,
Yao Xia,
Tian Yongchao,
Zhu Yan, Cao Weixing
Remote Sensing. 2021 13(16). p.3095
Differences in phasic development rate amongst wheat cultivars independent of responses to photoperiod and vernalization. A viewpoint of the intrinsic earliness hypothesis
Slafer G. A.
The Journal of Agricultural Science. 1996 126(4). p.403
Elevated Carbon Dioxide (2011)
THE EFFECT OF THE WHEAT STEM SAWFLY, CEPHUS CINCTUS (HYMENOPTERA: CEPHIDAE), ON THE YIELD AND QUALITY OF WHEAT
Holmes N. D.
The Canadian Entomologist. 1977 109(12). p.1591
Effect of early sowing on development in wheat isolines differing in vernalisation and photoperiod requirements
Go´mez-Macpherson H., Richards R.A.
Field Crops Research. 1997 54(2-3). p.91
Advances in Agronomy Volume 39 (1986)
Genetic Incorporation of the Favorable Alleles for Three Genes Associated With Spikelet Development in Wheat
Zhang Xiaojun,
Qiao Linyi,
Li Xin,
Yang Zujun,
Liu Cheng,
Guo Huijuan,
Zheng Jun,
Zhang Shuwei,
Chang Lifang,
Chen Fang,
Jia Juqing,
Yan Liuling, Chang Zhijian
Frontiers in Plant Science. 2022 13
The development of winter wheat in the field. 1. Relation between apical development and plant morphology within and between seasons
Baker C. K., Gallagher J. N.
The Journal of Agricultural Science. 1983 101(2). p.327
Transcriptional signatures of wheat inflorescence development
VanGessel Carl,
Hamilton James,
Tabbita Facundo,
Dubcovsky Jorge, Pearce Stephen
Scientific Reports. 2022 12(1).
A method of describing the progress of apical development in wheat, based on the time-course of organogenesis
Delécolle R.,
Hay R.K.M.,
Guérif M.,
Pluchard P., Varlet-Grancher C.
Field Crops Research. 1989 21(2). p.147
Effect of sowing rate on the growth and yield of standard and semidwarf wheat cultivars
Clements R. J.,
Cross R. J., Sanders P.
New Zealand Journal of Experimental Agriculture. 1974 2(2). p.139
Spikelet and floret initiation on tillers of winter triticale and winter wheat in different years and sowing dates
Ewert F.
Field Crops Research. 1996 47(2-3). p.155
Growth and Yield of Near-Isogenic Wheat Lines Carrying Different Vernalization Response Genes
Seki Masako,
Oda Shunsuke,
Matsunaka Hitoshi,
Hatta Kouichi,
Fujita Masaya,
Hatano Tetsuya,
Kiribuchi-Otobe Chikako,
Kawada Naoyuki, Kato Kenji
Breeding Research. 2007 9(4). p.125
Effect of seedling temperature and its duration on development of wheat cultivars differing in vernalization response
Rawson H.M.,
Zajac M., Penrose L.D.J.
Field Crops Research. 1998 57(3). p.289
Application of Different Temperatures in Three Growth Phases of Wheat
Kolderup Fredrik
Acta Agriculturae Scandinavica. 1979 29(1). p.11
Environmental and Genetic Variation for Yield-Related Traits of Durum Wheat as Affected by Development
Giunta Francesco,
De Vita Pasquale,
Mastrangelo Anna M.,
Sanna Gavino, Motzo Rosella
Frontiers in Plant Science. 2018 9
Vernalization and photoperiod responses in wheat pre-flowering reproductive phases
González Fernanda G,
Slafer Gustavo A, Miralles Daniel J
Field Crops Research. 2002 74(2-3). p.183
Designing a Wheat Ideotype with Increased Sink Capacity
Denćić S.
Plant Breeding. 1994 112(4). p.311
Recessive Winter Growth Habit Allele on 5B Chromosome, vrn-B1, Improves Earliness and Grain Yield of Bread Wheat
Pourtabrizi Soraya,
Kazemipour Ali,
Mohammadi-Nejad Ghasem,
Khajoei-Nejad Gholamreza, Abdolshahi Roohollah
Journal of Plant Growth Regulation. 2024
Banana agronomy – can unravelling theMusagenome help?
Turner D.W.,
Fortescue J.A., Daniells J.W.
Acta Horticulturae. 2016 (1114). p.245
MicroRNA-resistant alleles of
HOMEOBOX DOMAIN-2
modify inflorescence branching and increase grain protein content of wheat
Dixon Laura E.,
Pasquariello Marianna,
Badgami Roshani,
Levin Kara A.,
Poschet Gernot,
Ng Pei Qin,
Orford Simon,
Chayut Noam,
Adamski Nikolai M.,
Brinton Jemima,
Simmonds James,
Steuernagel Burkhard,
Searle Iain R.,
Uauy Cristobal, Boden Scott A.
Science Advances. 2022 8(19).
DEVELOPMENT OF THE YOUNG WHEAT SPIKE: A SEM STUDY OF CHINESE SPRING WHEAT
Gardner John S.,
Hess W. M., Trione E. J.
American Journal of Botany. 1985 72(4). p.548
Wheat stem sawfly‐infested plants benefit from parasitism of the herbivorous larvae
Buteler Micaela,
Weaver David K., Miller Perry R.
Agricultural and Forest Entomology. 2008 10(4). p.347
(1976)
MILK YIELD IN LINES OF MICE SELECTED FOR GROWTH OR MATERNAL ABILITY
White J. M.
Canadian Journal of Genetics and Cytology. 1975 17(2). p.263
Identification of Quantitative Trait Loci Relating to Flowering Time, Flag Leaf and Awn Characteristics in a Novel Triticum dicoccum Mapping Population
Wright Tally I.C.,
Burnett Angela C.,
Griffiths Howard,
Kadner Maxime,
Powell James S.,
Oliveira Hugo R., Leigh Fiona J.
Plants. 2020 9(7). p.829
Responses to photoperiod change with phenophase and temperature during wheat development
Slafer Gustavo A., Rawson H.M.
Field Crops Research. 1996 46(1-3). p.1
Vernalization gene combination to maximize grain yield in bread wheat (Triticum aestivum L.) in diverse environments
Zhang Jingjuan,
Dell Bernard,
Biddulph Ben,
Khan Nusrat,
Xu Yunji,
Luo Hao, Appels Rudi
Euphytica. 2014 198(3). p.439
Botany (1976)
Determination of wheat spike and spikelet architecture and grain traits using X-ray Computed Tomography imaging
Zhou Hu,
Riche Andrew B.,
Hawkesford Malcolm J.,
Whalley William R.,
Atkinson Brian S.,
Sturrock Craig J., Mooney Sacha J.
Plant Methods. 2021 17(1).
Wheat in tropical environments. I. Phasic development and spike size
Midmore D.J.,
Cartwright P.M., Fischer R.A.
Field Crops Research. 1982 5 p.185
The influence of irradiance before and after anthesis on grain yield and its components in microcrops of wheat grown in a constant daylength and temperature regime
Evans L.T.
Field Crops Research. 1978 1 p.5
Primordium initiation at the shoot apex in four contrasting varieties of spring wheat in response to sowing date
Stern W. R., Kirby E. J. M.
The Journal of Agricultural Science. 1979 93(1). p.203
Tuning of meristem maturation rate increases yield in multiple Triticum aestivum cultivars
Goldshmidt Alexander,
Ziegler Todd,
Zhou Dafeng,
Brower‐Toland Brent,
Preuss Sasha, Slewinski Thomas
Plant Direct. 2022 6(11).
High-temperature-tolerant wheat: A description of variation and a search for some limitations to productivity
Rawson H.M.
Field Crops Research. 1986 14 p.197
Genetic variation for the duration of pre-anthesis development in durum wheat and its interaction with vernalization treatment and photoperiod
Sanna Gavino,
Giunta Francesco,
Motzo Rosella,
Mastrangelo Anna Maria, De Vita Pasquale
Journal of Experimental Botany. 2014 65(12). p.3177
Ear development in spring wheat
Kirby E. J. M.
The Journal of Agricultural Science. 1974 82(3). p.437
Interrelationships between stem and ear development in winter wheat: the effects of a Norin 10 dwarfing gene, Gai/Rht2
Brooking I. R., Kirby E. J. M.
The Journal of Agricultural Science. 1981 97(2). p.373
Plants and environment: Two decades of research at the Canberra phytotron
Evans L. T.,
Wardlaw I. F., King R. W.
The Botanical Review. 1985 51(2). p.203
Evaluation of and Variability in Yields and Yield Components of Wheat Cultivars in Northern Serbia
Šumaruna Maja,
Mikić Sanja,
Mladenov Velimir,
Boćanski Jan,
Šućur Rada, Trkulja Dragana
Contemporary Agriculture. 2022 71(1-2). p.127
The influence of extended vegetative development and d2 dwarfing gene in increasing grain number per panicle and grain yield in pearl millet
Alagarswamy G., Bidinger F.R.
Field Crops Research. 1985 11 p.265
Photoperiod × temperature interactions in contrasting wheat genotypes: Time to heading and final leaf number
Slafer Gustavo A., Rawson H.M.
Field Crops Research. 1995 44(2-3). p.73
Untersuchungen über die Beeinflußbarkeit des Einzelährenertrags von Sommerweizen. — Experimente in Pflanzenwachstumskammern
Apel Peter
Die Kulturpflanze. 1976 24(1). p.143
The plasticity of the oat panicle and associated changes in leaf area and grain weight
Finnan John,
Burke Brendan, Spink John
Field Crops Research. 2019 242 p.107592
Number of kernels in wheat crops and the influence of solar radiation and temperature
Fischer R. A.
The Journal of Agricultural Science. 1985 105(2). p.447
Phenology and related traits for wheat adaptation
Hyles Jessica,
Bloomfield Maxwell T.,
Hunt James R.,
Trethowan Richard M., Trevaskis Ben
Heredity. 2020 125(6). p.417
The development of winter wheat in the field. 2. The control of primordium initiation rate by temperature and photoperiod
Baker C. K., Gallagher J. N.
The Journal of Agricultural Science. 1983 101(2). p.337
Effects of high temperature and photoperiod on floral development in wheat isolines differing in vernalisation and photoperiod genes
Rawson H.M., Richards R.A.
Field Crops Research. 1993 32(3-4). p.181
Genetic insights into morphometric inflorescence traits of wheat
Wolde Gizaw M.,
Trautewig Corinna,
Mascher Martin, Schnurbusch Thorsten
Theoretical and Applied Genetics. 2019 132(6). p.1661
Einfluss der organischen und mineralischen stickstoffdüngung auf ertrag und brauqualität von sommergerste.‐standortvergleich berlin (deutschland)—Tartu (Estland)
Ellmer Frank,
Erekul Osman,
Köhn Wolfgang,
Kuldkepp Paul, Teesalu Triin
Archives of Agronomy and Soil Science. 1999 44(6). p.579
Effect of photoperiod on development and number of spikelets of a temperate and some low‐latitude wheats
ALLISON J. C. S., DAYNARD T. B.
Annals of Applied Biology. 1976 83(1). p.93
Branching Shoots and Spikes from Lateral Meristems in Bread Wheat
Wang Ying,
Miao Fang,
Yan Liuling, Zhang Aimin
PLOS ONE. 2016 11(3). p.e0151656
Effects of nitrogen supply and drought on early development of winter wheat in the field in Eastern England
Thorne G. N.,
Wood D. W., Stevenson H. J.
The Journal of Agricultural Science. 1988 110(1). p.109
Changes in duration of developmental phases of durum wheat caused by breeding in Spain and Italy during the 20th century and its impact on yield
Isidro Julio,
Álvaro Fanny,
Royo Conxita,
Villegas Dolors,
Miralles Daniel J., García del Moral Luis F.
Annals of Botany. 2011 107(8). p.1355
Physiological Processes Limiting Plant Productivity (1981)
