Climate impact and adaptation to heat and drought stress of regional and global wheat production

Pequeno, Diego Noleto Luz; Hernández-Ochoa, Ixchel M.; Reynolds, Matthew; Sonder, Kai; Milan, Anabel Molero; Robertson, Richard D.; Lopes, Marta S.; Xiong, Wei; Kropff, M.J.; Asseng, Senthold

doi:10.1088/1748-9326/abd970

Cited by 81 publications

(61 citation statements)

References 73 publications

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“…Their results reveal that climate change could negatively impact its production in China by up to 18.26% by the end of this century. Pequeno et al (2021) and other authors simulated climate change impacts and global adaptation strategies for wheat, using new crop genetic traits -including increased heat tolerance and traits combined with additional nitrogen fertilizer applications-, as an option to maximize genetic gains. Their results predict that climate change will reduce global wheat production by 1.9% by mid-century.…”

Section: Impact Of Climate Change On Wheat Productionmentioning

confidence: 99%

Validation of a model to estimate climate effects on wheat (Triticum aestivum L.) production in a hydrological basin

Solano

Dena

Rodríguez

et al. 2022

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Objective. To validate a simulation model which enables the estimation of wheat (Triticum aestivum L.) production, based on climatic variables in the lower Mayo River basin in Sonora, Mexico. Design/methodology/ approach. The Soil and Water Assessment Tool (SWAT) Crop Yield simulation model was used to estimate productive wheat yields. The model was fed with climatic data for the 1979-2014 period, provided by the National Centers for Environmental Prediction. Subsequently, the results were validated using the Nash-Sutcliffe, PBIAS, and R2 statistics. The predictive capacity of the model was validated in four of the six Hydrological Response Units with agricultural land in the study area: 26, 27, 28, and 31. Study limitations/implications. The model does not include adaptation measures and future production scenarios based on climate data estimation must be developed. Findings/conclusions. The influence of climate change on wheat production has been confirmed; the predictive model used is an important tool that can be adjusted and adapted to other regions and production systems.

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Section: Impact Of Climate Change On Wheat Productionmentioning

confidence: 99%

Validation of a model to estimate climate effects on wheat (Triticum aestivum L.) production in a hydrological basin

Solano

Dena

Rodríguez

et al. 2022

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“…In cotton plant, for the first time, the X intrinsic proteins subfamily was characterized (Park et al, 2010). In total, 20 XIPs have been reported so far in fungi, mosses, protozoans, and other higher plants.…”

Section: Uncharacterized Intrinsic Proteinsmentioning

confidence: 99%

“…Drought stress increased ABA accumulation that induced AQP opening. The resulting increase in gs promotes leaf growth and inhibits ethylene synthesis (Pequeno et al, 2021).…”

Section: Ethylenementioning

confidence: 99%

“…There are many factors behind water scarcity in the agricultural sector: global warming, low rainfall, salinity, high-intensity sun rays, lowering of the water table, and so on. Crop plants, mostly nonwoody, contain about 80-95% water in their fresh biomass and water plays a significant role in their development, growth, and reproduction (Hirt & Shinozaki, 2003;Lisar et al, 2012), which are then seriously impacted in case of drought stress (Kapoor et al, 2020;Nazar et al, 2015;Pequeno et al, 2021;Xu et al, 2020). Drought stress inhibits the photosynthetic machinery and disrupts the cellular metabolism (Kapoor et al, 2020;Nazar et al, 2015;Sehar et al, 2020;Sharma et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

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Plant aquaporins: A frontward to make crop plants drought resistant

Ahmed

Kouser

Asgher

et al. 2021

Physiologia Plantarum

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Drought stress alters gene expression and causes cellular damage in crop plants. Drought inhibits photosynthesis by reducing the content and the activity of the photosynthetic carbon reduction cycle, ultimately decreasing the crop yield. The role of aquaporins (AQP) in improving the growth and adaptation of crop plants under drought stress is of importance. AQP form channels and control water transport in and out of the cells and are associated with drought tolerance mechanisms. The current review addresses: (1) the evolution of AQPs in plants, (2) the classification of plant AQPs, (3) the role of AQPs in drought alleviation in crop plants, and (4) the phytohormone crosstalk with AQPs in crops exposed to drought stress.

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“…As one of the three major grains and the staple foods of mankind, wheat is widely cultivated all over the world [116,117]. However, wheat is also a major plant allergen, and some people have severe allergic reactions to wheat [118][119][120][121].…”

Section: Wheatmentioning

confidence: 99%

Aptamer-Based Fluorescent Biosensor for the Rapid and Sensitive Detection of Allergens in Food Matrices

Hong

Pan

Xie

et al. 2021

Foods

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Food allergies have seriously affected the life quality of some people and even endangered their lives. At present, there is still no effective cure for food allergies. Avoiding the intake of allergenic food is still the most effective way to prevent allergic diseases. Therefore, it is necessary to develop rapid, accurate, sensitive, and reliable analysis methods to detect food allergens from different sources. Aptamers are oligonucleotide sequences that can bind to a variety of targets with high specificity and selectivity, and they are often combined with different transduction technologies, thereby constructing various types of aptamer sensors. In recent years, with the development of technology and the application of new materials, the sensitivity, portability, and cost of fluorescence sensing technology have been greatly improved. Therefore, aptamer-based fluorescence sensing technology has been widely developed and applied in the specific recognition of food allergens. In this paper, the classification of major allergens and their characteristics in animal and plant foods were comprehensively reviewed, and the preparation principles and practical applications of aptamer-based fluorescence biosensors are summarized. In addition, we hope that this article can provide some strategies for the rapid and sensitive detection of allergens in food matrices.

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Climate impact and adaptation to heat and drought stress of regional and global wheat production

Cited by 81 publications

References 73 publications

Validation of a model to estimate climate effects on wheat (Triticum aestivum L.) production in a hydrological basin

Validation of a model to estimate climate effects on wheat (Triticum aestivum L.) production in a hydrological basin

Plant aquaporins: A frontward to make crop plants drought resistant

Aptamer-Based Fluorescent Biosensor for the Rapid and Sensitive Detection of Allergens in Food Matrices

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