Changes in Frost Resistance of Wheat Young Ears with Development During Jointing Stage

Zhong, X.P.; Mei, Xurong; Li, Y.; Yoshida, Hisashi; Zhao, Pei; Wang, Xifeng; Han, Le; Hu, Xin; Huang, Shaoming; Huang, Jiehua; Sun, Zenghui

doi:10.1111/j.1439-037x.2008.00320.x

Cited by 58 publications

(35 citation statements)

References 13 publications

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“…Hence, a field movable climate chamber (FMCC) was used to simulate temperature decreases in situ and similar to those occurring naturally in the field. The FMCC employed was able to simulate radiation frosts and has been used previously in related studies (Zhong et al 2007(Zhong et al , 2008. A single frost treatment was imposed on each plot on 30 or 31 March 2012 when all three Frost affects grain yield components 195 cultivars had entered the jointing stage corresponding to Zadoks 32 (Zadoks et al 1974).…”

Section: Frostingmentioning

confidence: 99%

“…This is for two reasons: first, because the growing point is pushed above the insulating soil surface, also losing the protection of its enclosing leaf sheath (Single 1984); and second, because the growing point switches to the more frost-vulnerable reproductive phase. As development advances, susceptibility to subfreezing temperature continues to increase (Whaley et al 2004;Zhong et al 2008). After ear emergence, it becomes most frost sensitive because ice may form directly on the reproductive tissue when the ear is no longer protected by the stem and leaf sheath (Single & Marcellos 1974;Marcellos & Single 1984;Cromey et al 1998).…”

Section: Introductionmentioning

confidence: 97%

“…Unlike these regions, China typically has a continentalmonsoon climate with a very wide annual temperature range. Earlier in spring, from mid March through to early April, cold air flows from the north are not uncommon and frosts often occur 3 or 4 weeks before head emergence when plants are at the jointing stage (Feng et al 1999;Zhong et al 2008).…”

Section: Introductionmentioning

confidence: 98%

“…A large number of winter wheat cultivars have been bred and these are planted over extensive areas throughout the world. However, most of these areas are susceptible to spring frosts and significant yield losses occur in many countries (Paulsen & Heyne 1983;Single 1984;Boer et al 1993;Cromey et al 1998;Zhong et al 2008).…”

Section: Introductionmentioning

confidence: 99%

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Frost affects grain yield components in winter wheat

Zhong

Hu³

et al. 2014

New Zealand Journal of Crop and Horticultural Science

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The influence of frost stress during the jointing stage in winter wheat was examined for original tillers (OT), regenerated tillers (RT) and the yield components of the cultivars Yumai 18, Zhoumai 18 and Yanzhan 4110. Ear number per plant, kernel number per ear, 1000-kernel weight and yield per plant were recorded under a range of subfreezing temperatures (−1, −3, −5, −7 and −9°C). The results were modelled by linear and quadratic regression. In the quadratic model, ear number per plant and yield per plant of the three cultivars were all significant (P < 0.001) and their fitted curves showed a concavedownward parabolic trend as the subfreezing temperature decreased. By analysing the change characteristics of ear number and yield per plant of OT and RT following frost treatment, it was found that OT decreased and RT increased resulting in the concave-downward parabolic yield trend. Final ear number and yield were the result of these opposing behaviours with OT and RT partly offsetting one another and thus tending to stabilize yield loss. The resulting compensatory behaviour of the three cultivars showed obvious differences with the RT of Yumai 18 making the greatest contribution to grain yield. The work offers the potential for creating a rational basis for selecting cultivars having improved frost resistance based on recording their tillering behaviour under low-temperature conditions.

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Section: Frostingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Frost affects grain yield components in winter wheat

Zhong

Hu³

et al. 2014

New Zealand Journal of Crop and Horticultural Science

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“…Whilst crop damage at this time can be caused by decreased photosynthesis, leaf death or stem damage, it is apparent that ear or spikelet death is responsible for most of the recorded losses (Zhong et al. ).…”

Section: Introductionmentioning

confidence: 99%

Frost Hardiness Expression and Characterisation in Wheat at Ear Emergence

Al-Issawi

Rihan

El-Sarkassy

et al. 2012

J Agronomy Crop Science

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Occasionally, wheat can be exposed to overnight freezing temperatures whilst it is in the early reproductive stage and considerable frost damage can occur. In the vegetative stage, full expression of frost tolerance genes can be gained when plants are exposed to acclimation temperatures (4 °C). Paradoxically, wheat during flowering has limited or no ability to effectively acclimate or re‐acclimate and it demonstrates frost sensitivity during this stage. Using a combined approach involving infrared thermography and molecular analysis, the causes and effects of frost‐induced damage to wheat during ear emergence were investigated. It was demonstrated that frost damage only occurs to wheat ears if the temperature falls below −5 °C but some ears, and some spikelets on frozen ears do not freeze but supercool and escape freezing. In whole plant freezing experiments, spikelets showed both complete and partial sterility upon maturation and this was linked to parallel infrared observation of detached ears showing full or partial freezing of spikelets. It was hypothesised that wherever spikelet freezing occurred the spikelet was sterile and grain production per ear was drastically reduced, and in contrary, spikelet survival was as a result of supercooling. Molecular analysis of the upregulation of Cbf14 showed that as ear emergence progressed the ability to induce Cbf14 decreased but at early stages of ear emergence Cbf14 was able to be induced by exposure to acclimating temperatures (4 °C). The hypothesis that the lack of the ear to acclimate is because of the incapability to induce the CBF transcription factor was only partially upheld in this investigation. Further work is needed to elucidate more precisely the molecular incompetency for the acclimation of wheat during ear emergence.

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Effect of Low Temperature on Dry Matter, Partitioning, and Seed Yield: A Review

Bhattacharya

2022

Physiological Processes in Plants Under Low Temperature Stress

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Changes in Frost Resistance of Wheat Young Ears with Development During Jointing Stage

Cited by 58 publications

References 13 publications

Frost affects grain yield components in winter wheat

Frost affects grain yield components in winter wheat

Frost Hardiness Expression and Characterisation in Wheat at Ear Emergence

Effect of Low Temperature on Dry Matter, Partitioning, and Seed Yield: A Review

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