Climate Changes and Mango Production (Temperature)

Khalifa SM; Abobatta WF

doi:10.61927/igmin115

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Biology Group Mini Review 記事ID: igmin115

Climate Changes and Mango Production (Temperature)

Plant Biology Evolutionary Biology Ecosystem Resilience

Khalifa SM ¹ and

Abobatta WF ^* ²

Affiliation

Department of Horticulture, Faculty of Agriculture, Al-Azhar University, Cairo 11884, Egypt

Citrus Department, Horticulture Research Institute, Agriculture, Research Center, Giza, Egypt

DOI10.61927/igmin115 全文HTML 全文PDF この記事を引用する

要約

The mango, known as the {king of fruits}, is commercially significant in many parts of the world. In addition to offering a delicious tropical flavor, mangoes are a great source of nourishment and can make eating a satisfying and healthy sensory experience. Even though mango farming is known to exist in more than 120 nations, just 15 of them are responsible for more than 1% of the world’s supply. More than 60% of the mangoes produced worldwide are grown in India, China, Thailand, Indonesia and Mexico.

The effects of climate change on agriculture must take into account the increasing CO₂ concentration, a significant contributor to climate change, as CO₂ is essential to critical plant functions, including photosynthesis. The fluctuation of temperature represents another climatic factor that affects mango productivity. The primary challenge facing the mango industry is irregular cultivation. The mango flowering was negatively impacted by the erratic distribution of cold nights and relatively warm winters. Mango output is already being impacted by rising average maximum temperatures. Therefore, regardless of mango growers, geniuses, or consumers, rapid climate change should be a top priority. A benefit of selection and breeding operations to adapt to climatic change is the high genetic variety of mangoes.

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参考文献

Abobatta WF. Fruit orchards under climate change conditions: adaptation strategies and management. J Appl Biotechnol Bioeng. 2021; 8(3):99-102. DOI: https://doi.org/10.47275/2692-5222-113
Sankaran M, Dinesh MR, Abirami K, Murugan C. Botany of Mango. In: Kole, C. (eds) The Mango Genome. Compendium of Plant Genomes. 2021. Springer, Cham. https://doi.org/10.1007/978-3-030-47829-2_2
Jignasa HR, Varu DK, Farheen HH, Meera BS. Correlation of Climatic Parameters with Flowering Characters of Mango. Int J Pure App Biosci. 2018; 6 (3): 597-601.
Litz RE. The Mango. Botany, Production and Uses. 2^nd CAB, Wallingford. 2009.
Morison IL, Morecroft M. Pant Growth and Climate Change. Blackwell Publishing Ltd, UK. 2006.
Shuvadeep H, Abu Hasan MD. Climate Change and Mango Production. Chem Sci Rev Lett. 2020; 9 (33): 55-57.
Lobo MG, Sidhu JS. Biology, Postharvest Physiology, and Biochemistry. In by Muhammad S, Jeffrey KB, Jiwan SS, Handbook of Mango Fruit: Production, Postharvest Science, Processing Technology and Nutrition, 1^st John Wiley & Sons Ltd. 2017.
Lora J, Garcia-Lor A, Aleza P. Pollen Development and Viability in Diploid and Doubled Diploid Citrus Species. Front Plant Sci. 2022 Apr 25;13:862813. doi: 10.3389/fpls.2022.862813. PMID: 35557738; PMCID: PMC9090487.
Clonan M, Hernaman V, Pearce K, Hopkins M, Moise A, McConchie C. Impact of climate change on flowering induction in mangoes in the Northern Territory, Earth Systems and Climate Change Hub Report No. 16, NESP Earth Systems and Climate Change Hub, Australia. 2020.
Beck HE, Zimmermann NE, McVicar TR, Vergopolan N, Berg A, Wood EF. Present and future Köppen-Geiger climate classification maps at 1-km resolution. Sci Data. 2018 Oct 30;5:180214. doi: 10.1038/sdata.2018.214. Erratum in: Sci Data. 2020 Aug 17;7(1):274. PMID: 30375988; PMCID: PMC6207062.
Robbertse PJ, Manyaga C. Determination of cool- temperature requirement for flowering in various mango cultivars. South African Mango Grower’s Association. Year book. 1998; 18: 18-19.
Sukhvibul N, Hetherington SE, Whiley AW, Smith MK, Vithanage V. Effect of temperature on inflorescence development and sex expression of mono- and poly- embryonic mango. J. Hort. Sci. and Bio. 1999; 74(1): 64-68.
Sukhvibul N, Hetherington SE, Whiley AW, Smith MK, Vithanage V. Effect of temperature on inflorescence development and floral biology of mango. Acta Hort. 2000; 509: 601-607.
Chang JW, Chao CN. Effects of air temperature and rainfall on flower and fruit drop in mango. Chinese Journal of Agrometeorology (2000, publ. 2001)7 (4) 32-34. (c.f. Hort. Abst. 2002; 72(2):1164.
Rajatiya J, Varu DK, Gohil P, Solanki M, Halepotara F, Gohil M, Mishra P, Solanki R. Climate Change: Impact, Mitigation and Adaptation in Fruit Crops. Int J Pure App Biosci. 2018; 6(1): 1161-1169. doi: http://dx.doi.org/10.18782/2320-7051.6161
Varu DK, Viradia RR. Damage of mango flowering and fruits in Gujarat during the year 2015, Survey report of Department of Horticulture, JAU, Junagadh. 2015.
Parmar VR, Shrivastava PK, Patel BN. Study on weather parameters affecting the mango flowering in south Gujarat, Journal of Agrometeorology. 2012; 14: 351-353.
Olesen T. Late 20^th century warming in a coastal horticultural region and its effects on tree phenology. New Zealand J Crop Hort Science. 2011; 39(2): 119-129.
Léchaudel M, Lopez-Lauri F, Vidal V, Sallanon H, Joas J. Response of the physiological parameters of mango fruit (transpiration, water relations and antioxidant system) to its light and temperature environment. J Plant Physiol. 2013 Apr 15;170(6):567-76. doi: 10.1016/j.jplph.2012.11.009. Epub 2012 Dec 23. PMID: 23267462.
Urban L, Le Roux X, Sinoquet H, Jaffuel S, Jannoyer M. A biochemical model of photosynthesis for mango leaves: evidence for the effect of fruit on photosynthetic capacity of nearby leaves. Tree Physiol. 2003 Apr;23(5):289-300. doi: 10.1093/treephys/23.5.289. PMID: 12615544.
Dambreville AL, Normand FDR, Lauri PR. Plant growth co-ordination in natura: a unique temperature-controlled law among vegetative and reproductive organs in mango. Funct Plant Biol. 2013 Apr;40(3):280-291. doi: 10.1071/FP12243. PMID: 32481107.

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[1] Abobatta WF. Fruit orchards under climate change conditions: adaptation strategies and management. J Appl Biotechnol Bioeng. 2021; 8(3):99-102. DOI: https://doi.org/10.47275/2692-5222-113

[2] Sankaran M, Dinesh MR, Abirami K, Murugan C. Botany of Mango. In: Kole, C. (eds) The Mango Genome. Compendium of Plant Genomes. 2021. Springer, Cham. https://doi.org/10.1007/978-3-030-47829-2_2

[3] Jignasa HR, Varu DK, Farheen HH, Meera BS. Correlation of Climatic Parameters with Flowering Characters of Mango. Int J Pure App Biosci. 2018; 6 (3): 597-601.

[4] Litz RE. The Mango. Botany, Production and Uses. 2^nd CAB, Wallingford. 2009.

[5] Morison IL, Morecroft M. Pant Growth and Climate Change. Blackwell Publishing Ltd, UK. 2006.

[6] Shuvadeep H, Abu Hasan MD. Climate Change and Mango Production. Chem Sci Rev Lett. 2020; 9 (33): 55-57.

[7] Lobo MG, Sidhu JS. Biology, Postharvest Physiology, and Biochemistry. In by Muhammad S, Jeffrey KB, Jiwan SS, Handbook of Mango Fruit: Production, Postharvest Science, Processing Technology and Nutrition, 1^st John Wiley & Sons Ltd. 2017.

[8] Lora J, Garcia-Lor A, Aleza P. Pollen Development and Viability in Diploid and Doubled Diploid Citrus Species. Front Plant Sci. 2022 Apr 25;13:862813. doi: 10.3389/fpls.2022.862813. PMID: 35557738; PMCID: PMC9090487.

[9] Clonan M, Hernaman V, Pearce K, Hopkins M, Moise A, McConchie C. Impact of climate change on flowering induction in mangoes in the Northern Territory, Earth Systems and Climate Change Hub Report No. 16, NESP Earth Systems and Climate Change Hub, Australia. 2020.

[10] Beck HE, Zimmermann NE, McVicar TR, Vergopolan N, Berg A, Wood EF. Present and future Köppen-Geiger climate classification maps at 1-km resolution. Sci Data. 2018 Oct 30;5:180214. doi: 10.1038/sdata.2018.214. Erratum in: Sci Data. 2020 Aug 17;7(1):274. PMID: 30375988; PMCID: PMC6207062.

[11] Robbertse PJ, Manyaga C. Determination of cool- temperature requirement for flowering in various mango cultivars. South African Mango Grower’s Association. Year book. 1998; 18: 18-19.

[12] Sukhvibul N, Hetherington SE, Whiley AW, Smith MK, Vithanage V. Effect of temperature on inflorescence development and sex expression of mono- and poly- embryonic mango. J. Hort. Sci. and Bio. 1999; 74(1): 64-68.

[13] Sukhvibul N, Hetherington SE, Whiley AW, Smith MK, Vithanage V. Effect of temperature on inflorescence development and floral biology of mango. Acta Hort. 2000; 509: 601-607.

[14] Chang JW, Chao CN. Effects of air temperature and rainfall on flower and fruit drop in mango. Chinese Journal of Agrometeorology (2000, publ. 2001)7 (4) 32-34. (c.f. Hort. Abst. 2002; 72(2):1164.

[15] Rajatiya J, Varu DK, Gohil P, Solanki M, Halepotara F, Gohil M, Mishra P, Solanki R. Climate Change: Impact, Mitigation and Adaptation in Fruit Crops. Int J Pure App Biosci. 2018; 6(1): 1161-1169. doi: http://dx.doi.org/10.18782/2320-7051.6161

[16] Varu DK, Viradia RR. Damage of mango flowering and fruits in Gujarat during the year 2015, Survey report of Department of Horticulture, JAU, Junagadh. 2015.

[17] Parmar VR, Shrivastava PK, Patel BN. Study on weather parameters affecting the mango flowering in south Gujarat, Journal of Agrometeorology. 2012; 14: 351-353.

[18] Olesen T. Late 20^th century warming in a coastal horticultural region and its effects on tree phenology. New Zealand J Crop Hort Science. 2011; 39(2): 119-129.

[19] Léchaudel M, Lopez-Lauri F, Vidal V, Sallanon H, Joas J. Response of the physiological parameters of mango fruit (transpiration, water relations and antioxidant system) to its light and temperature environment. J Plant Physiol. 2013 Apr 15;170(6):567-76. doi: 10.1016/j.jplph.2012.11.009. Epub 2012 Dec 23. PMID: 23267462.

[20] Urban L, Le Roux X, Sinoquet H, Jaffuel S, Jannoyer M. A biochemical model of photosynthesis for mango leaves: evidence for the effect of fruit on photosynthetic capacity of nearby leaves. Tree Physiol. 2003 Apr;23(5):289-300. doi: 10.1093/treephys/23.5.289. PMID: 12615544.

[21] Dambreville AL, Normand FDR, Lauri PR. Plant growth co-ordination in natura: a unique temperature-controlled law among vegetative and reproductive organs in mango. Funct Plant Biol. 2013 Apr;40(3):280-291. doi: 10.1071/FP12243. PMID: 32481107.

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