Global warming and rice production in Asia: Modeling, impact prediction and adaptation

Horie, Takeshi

doi:10.2183/pjab.95.016

Cited by 44 publications

(40 citation statements)

References 112 publications

(245 reference statements)

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“…Significant advancement of FOT by qEMF3 in a wide range of environmental conditions Hirabayashi et al, (2015) and Bheemanahalli et al, (2017) (Horie, 2019;Wassmann et al, 2009). By employing staggered sowings in different dry seasons, wide range of average daily maximum temperatures during heading was obtained ( (Table 5).…”

Section: Discussionmentioning

confidence: 99%

“…Horie (2019) documented that EMF is one of the key traits that could retain rice grain yield by mitigating heat-induced spikelet sterility during flowering under future hotter temperatures in inland of continental South East Asia. Our study clearly demonstrated that EMF trait could diminish heat stress damage at flowering on grain yield through stabilization of PFG in the hot dry season of central Myanmar.…”

Section: Discussionmentioning

confidence: 99%

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An early-morning flowering trait in rice helps retain grain yield under heat stress field conditions at flowering stage

Ishimaru

Hlaing

et al. 2021

Preprint

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Early-morning flowering (EMF) trait is supposed to be effective in retaining grain yield due to mitigation of heat-induced spikelet sterility at flowering in rice. This study evaluated (i) phenotypic differences between a near-isogenic line carrying a QTL for EMF trait, designated as IR64+qEMF3, and a recurrent parent, IR64, under wide variation in climates and (ii) whether an EMF trait can retain grain yield under heat stress at flowering. IR64+qEMF3 had significant earlier flower opening time (FOT) in diverse environmental conditions including temperate, subtropical, and tropical regions. Under normal temperatures at flowering, IR64+qEMF3 had similar grain yield to IR64 with some significant changes in agronomic traits and yield components. Field trials in heat-vulnerable regions of central Myanmar for seven crop seasons showed that higher percentage of filled grains contributed to the significantly higher grain yield in IR64+qEMF3 among yield components when plants were exposed to daily maximum air temperatures around 36.5 °C or higher. Lower spikelet sterility in IR64+qEMF3 was attributed to the earlier FOT during cooler early morning hours. This is the first field study that clearly demonstrates the advantage of the EMF trait for retaining grain yield by stabilizing percentage of fertile grains under heat stress at flowering.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

An early-morning flowering trait in rice helps retain grain yield under heat stress field conditions at flowering stage

Ishimaru

Hlaing

et al. 2021

Preprint

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“…Furthermore, there was a gap between T ab and T in mainly due to the evaporative cooling effect of plant canopy as in Figure 3. Those air temperature gaps are large enough to greatly affect the plant response predicted by using simple crop growth models based on cumulative temperature, or by using rice development models such as those of Horie (2019), Yoshida et al (2010) and Bouman et al (2001).…”

Section: Discussionmentioning

confidence: 99%

Canopy micrometeorology monitoring in diverse climates innovatively improves the evaluation heat-induced sterility of rice under climate change

Yoshimoto

Fukuoka

Tsujimoto

et al. 2020

Preprint

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This study is the first and unique of open-field studies to assess the determination process of heat-induced spikelet sterility (HISS) of rice by using the same variety and the same monitoring system, MINCER (Micrometeorological Instrument for Near Canopy Environment of Rice), covering the major-rice growing regions from Sub-Saharan Africa, South, Southeast, and East Asia, and USA. Applying the observation data from the monitoring network, MINCERnet, to the canopy heat balance model, IM2PACT, it was quantitatively corroborated in open-field conditions worldwide that the canopy and panicle transpiration and their evaporative cooling effect played a great role on the micrometeorological gap between the ambient air temperature and the panicle temperature, and that the sterility rate due to HISS in open-fields can be evaluated accurately in diverse climates by the mean panicle temperature at flowering hours in the flowering period. The heat balance structure suggested that the risk of HISS should be higher in high humidity climates rather than in dry climates also in the future, which lead to the importance of the humidity accuracy as well as of the air temperature in climate scenarios and their spatial downscaling for future prediction of rice heat stress and production. Applying the heat-tolerant variety was suggested to be able to keep the sterility due to HISS low in all climates. It is needed of the approach using the panicle temperature as indicator of HISS by intervening sub-model and/or monitoring of micrometeorology inside the canopy to reduce uncertainties in future rice yield prediction under various adaptation measures.

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“…Generally, the amount of energy absorbed is estimated for a 100-year time frame. Typical GWP values for methane (CH 4 ) range from 25 to 36, with an atmosphere residence of 10 years (Smartt et al, 2016;Simmonds et al, 2015;Horie, 2019). Nitrous oxide (N 2 O) has GWP values ranging from 265 to 298, with an atmosphere residence time of more than 100 years.…”

Section: Influence Of Climate Change On Rice Development and Water Rementioning

confidence: 99%

“…Wichelns also reported on studies indicating that increased CO 2 and increased temperatures may synergistically further spikelet sterility. High temperature impacts on pollen viability and spikelet sterility are more prominent in indica cultivars than japonica cultivars, a feature partially attributed to enhanced nighttime temperatures having a smaller influence on carbon assimilation for indica cultivars (Horie, 2019). Ali et al (2013) observed rice variety variations from the Australian rice breeding program for yield response during the reproductive and grain fill stages.…”

Section: ) Influence Of High Temperature and Other Meteorological Vamentioning

confidence: 99%

Nexus of Climate Change and USA Mid-South Rice (<i>Oryza sativa</i> L.) Production

Aide¹,

Guzman²

2020

GEP

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Global warming and rice production in Asia: Modeling, impact prediction and adaptation

Cited by 44 publications

References 112 publications

An early-morning flowering trait in rice helps retain grain yield under heat stress field conditions at flowering stage

An early-morning flowering trait in rice helps retain grain yield under heat stress field conditions at flowering stage

Canopy micrometeorology monitoring in diverse climates innovatively improves the evaluation heat-induced sterility of rice under climate change

Nexus of Climate Change and USA Mid-South Rice (<i>Oryza sativa</i> L.) Production

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Global warming and rice production in Asia: Modeling, impact prediction and adaptation

Cited by 44 publications

References 112 publications

An early-morning flowering trait in rice helps retain grain yield under heat stress field conditions at flowering stage

An early-morning flowering trait in rice helps retain grain yield under heat stress field conditions at flowering stage

Canopy micrometeorology monitoring in diverse climates innovatively improves the evaluation heat-induced sterility of rice under climate change

Nexus of Climate Change and USA Mid-South Rice (&lt;i&gt;Oryza sativa&lt;/i&gt; L.) Production

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Product

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About

Nexus of Climate Change and USA Mid-South Rice (<i>Oryza sativa</i> L.) Production