Articles citing this paper
Effect of constant and fluctuating temperature regimes and seed source on the coleoptile length of tall and semidwarf wheats
BJ Radford
27(1) pp.113 - 117
15 articles found in Crossref database.
Do wheat breeders have suitable genetic variation to overcome short coleoptiles and poor establishment in the warmer soils of future climates?
Rebetzke Greg J.,
Zheng Bangyou, Chapman Scott C.
Functional Plant Biology. 2016 43(10). p.961
Prospects for utilising plant-adaptive mechanisms to improve wheat and other crops in drought- and salinity-prone environments
REYNOLDS M P,
MUJEEB-KAZI A, SAWKINS M
Annals of Applied Biology. 2005 146(2). p.239
Genetic analysis of coleoptile length and diameter in wheat
Rebetzke G. J.,
Richards R. A.,
Sirault X. R. R., Morrison A. D.
Australian Journal of Agricultural Research. 2004 55(7). p.733
Plant Breeding Reviews (2012)
Novel wheat varieties facilitate deep sowing to beat the heat of changing climates
Zhao Zhigan,
Wang Enli,
Kirkegaard John A., Rebetzke Greg J.
Nature Climate Change. 2022 12(3). p.291
The contribution of the gibberellin-insensitive semi-dwarfing (Rht) genes to genetic variation in wheat seedling growth in response to osmotic stress
LANDJEVA S.,
KORZUN V.,
STOIMENOVA E.,
TRUBERG B.,
GANEVA G., BÖRNER A.
The Journal of Agricultural Science. 2008 146(3). p.275
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
Increase in coleoptile length and establishment by Lcol-A1, a genetic locus with major effect in wheat
Bovill William D.,
Hyles Jessica,
Zwart Alexander B.,
Ford Brett A.,
Perera Geetha,
Phongkham Tanya,
Brooks Brenton J.,
Rebetzke Gregory J.,
Hayden Matthew J.,
Hunt James R., Spielmeyer Wolfgang
BMC Plant Biology. 2019 19(1).
Coleoptile length variation of near-isogenic Rht lines of modern CIMMYT bread and durum wheats
Trethowan R.M,
Singh R.P,
Huerta-Espino J,
Crossa J, van Ginkel M
Field Crops Research. 2001 70(3). p.167
A numerical model of heat and water movement in furrow‐sown water repellent sandy soils
Yang Bangjie,
Blackwell Paul S., Nicholson David F.
Water Resources Research. 1996 32(10). p.3051
Control of early seedling growth in varietal lines of hexaploid wheat (Triticum aestivum), durum wheat (Triticum durum), and barley (Hordeum vulgare) in response to the phthalimide growth regulant, AC 94,377
Rodaway Shirley J.,
Gates Donald W., Brindle Cheimi
Plant Growth Regulation. 1991 10(3). p.243
Effects of light, temperature, gibberellin (GA3) and their interaction on coleoptile and leaf elongation of tall, semi-dwarf and dwarf wheat
Pinthus Moshe J., Abraham Moritz
Plant Growth Regulation. 1996 18(3). p.239
Maize seedling response to the soil environment at varying distances from a mulched soil-bare soil boundary
Abrecht Doug G., Bristow Keith L.
Soil and Tillage Research. 1990 15(3). p.205
Emergence, stand establishment and vigour of deep-sown Australian and CIMMYT wheats
Gooding S.,
Botwright Acuña T. L.,
Fox P. N., Wade L. J.
Australian Journal of Experimental Agriculture. 2006 46(9). p.1167
Genome-wide association mapping reveals novel genes associated with coleoptile length in a worldwide collection of barley
Luo Hao,
Hill Camilla Beate,
Zhou Gaofeng,
Zhang Xiao-Qi, Li Chengdao
BMC Plant Biology. 2020 20(1).
