全球气候变化:发生的原因及其对南方草原农业生产的影响

S. Goloborodko, O. Dymov
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As a result, the aridity of the climate has increased and the frequency of droughts has risen as well. If for the period of 400 years, in the XI–XIV centuries droughts occurred only 8 times, in the XVII–XVIII – 17, in the XIX – 20, in the XX century the number of them increased to 30. \nThe purpose of the article is to reveal the causes of global climate change on the planet and its impact on agricultural production of the southern Steppe subzone that resulted in increasing the coefficient of moisture, evaporation and moisture deficit. \nResearch methods. The study was carried out using long-term meteorological observations of Kherson meteorological station. Scientific research was based on the complex application of statistical, monographic, abstract-logical methods and system analysis. \nResearch results. The analysis of the main causes of global and regional climate change was conducted. Four models of the bases of climate change on the planet Earth were made. The influence of climate change on the formation of crops yield in the subzone of the southern Steppe was specified. The amount of precipitation fell during the growing period of 2011–2017 in medium dry and dry years shows that, compared to the long-term average precipitation, it was significantly lower and amounted to 47.2–63.6 mm. In average for the 65 years (1945–2010) evaporation was 722.0 mm, and the deficit of moisture, respectively 487.4 mm. In wet years, the volatility does not exceed 608.6 mm, and the deficit of moisture was made up of 243.6 mm. In average as to water supply years the evaporation increased up to 645.7–746.3 mm and the deficit of moisture increased up to 406.7–507.7 mm. In mid-dry and dry years, evaporation increased up to 769.8–934.5 mm, and the deficit of moisture – up to 580.9–791.0 mm. \nConclusions. The decrease in precipitation, especially in dry years, compared to average annual indicators, was recorded in spring period as 24–27% and in autumn – as 62–65%, along with a simultaneous increase in air temperature in those periods as 2.7 and 2.8°C respectively. In general, during the vegetation period the increase in evaporation was 30–31% and the deficit of moisture was 53–55% that resulted in low yields of crops. The main way to overcome the negative impact of global climate change on the agricultural production of the southern Steppe subzone is the effective use and further extending the areas of actual irrigation, that will ensure stable high yields and food security of the state.","PeriodicalId":298682,"journal":{"name":"Міжвідомчий тематичний науковий збірник \"Меліорація і водне господарство\"","volume":"48 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2019-07-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"GLOBAL CLIMATE CHANGE: CAUSES OF OCCURRENCE AND CONSEQUENCES FOR AGRICULTURAL PRODUCTION IN THE SOUTHERN STEPPE\",\"authors\":\"S. Goloborodko, O. Dymov\",\"doi\":\"10.31073/mivg201901-162\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Relevance of the research. 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引用次数: 1

摘要

研究的相关性。如果21世纪进入大气的温室气体量与现在相同,地球平均温度的上升将达到2-4°C,因此不排除现有生物群落中高达20-30%的动植物物种灭绝的威胁。与此同时,世界海洋的水位将上升,在20世纪上升了17厘米,也就是说,比过去2000年的水位还要高。近年来,乌克兰南部草原分区在自然滋润(不灌溉)的条件下,月平均气温上升,但降水不足,特别是在7月、8月和9月,根据各种估计,这是半沙漠和沙漠的典型情况。结果,气候的干旱程度增加了,干旱的频率也增加了。本文的目的是揭示全球气候变化在地球上的原因及其对南方草原亚带农业生产的影响,导致水分系数、蒸发系数和水分亏缺系数增加。研究方法。利用赫尔森气象站的长期气象观测资料进行了研究。科学研究的基础是统计、专著、抽象逻辑方法和系统分析的复杂应用。研究的结果。对全球和区域气候变化的主要原因进行了分析。建立了地球气候变化基础的四种模式。明确了气候变化对南草原亚带作物产量形成的影响。2011-2017年中干旱年生长期降水量下降,与长期平均降水量相比显著降低,为47.2 ~ 63.6 mm。65 a(1945-2010)平均蒸发量为722.0 mm,水分亏缺量为487.4 mm。丰水年波动率不超过608.6 mm,水分亏缺量为243.6 mm。平均供水量年蒸发量增加至645.7 ~ 746.3 mm,水分亏缺增加至406.7 ~ 507.7 mm。中干旱年蒸发量增加769.8 ~ 934.5 mm,水分亏缺量增加580.9 ~ 791.0 mm。结论。与年平均指标相比,降水减少,特别是在干旱年份,在春季为24-27%,在秋季为62-65%,同时这两个时期的气温分别升高2.7和2.8°C。总体而言,植被期蒸发量增加30-31%,水分亏缺53-55%,导致作物产量偏低。克服全球气候变化对南方草原分区农业生产不利影响的主要途径是有效利用和进一步扩大实际灌溉面积,确保国家的稳定高产和粮食安全。
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GLOBAL CLIMATE CHANGE: CAUSES OF OCCURRENCE AND CONSEQUENCES FOR AGRICULTURAL PRODUCTION IN THE SOUTHERN STEPPE
Relevance of the research. If greenhouse gases in the XXI century enter the atmosphere in the same volume as now, the increase in the average temperature on the planet will reach 2–4°C, and therefore the threat of extinction of up to 20–30% of species of animals and plants in existing biocenosis is not excluded. At the same time, the water level in the world ocean will rise, which during the XX century became higher by 17 cm, that is, more than for the previous 2000 years. Simultaneously with the increase in the average monthly air temperature in the conditions of natural moisturizing (without irrigation) of the southern Steppe subzone of Ukraine in recent years, insufficient precipitation has been recorded, especially in July, August and September that, according to various estimates, is typical for the semi-desert and desert. As a result, the aridity of the climate has increased and the frequency of droughts has risen as well. If for the period of 400 years, in the XI–XIV centuries droughts occurred only 8 times, in the XVII–XVIII – 17, in the XIX – 20, in the XX century the number of them increased to 30. The purpose of the article is to reveal the causes of global climate change on the planet and its impact on agricultural production of the southern Steppe subzone that resulted in increasing the coefficient of moisture, evaporation and moisture deficit. Research methods. The study was carried out using long-term meteorological observations of Kherson meteorological station. Scientific research was based on the complex application of statistical, monographic, abstract-logical methods and system analysis. Research results. The analysis of the main causes of global and regional climate change was conducted. Four models of the bases of climate change on the planet Earth were made. The influence of climate change on the formation of crops yield in the subzone of the southern Steppe was specified. The amount of precipitation fell during the growing period of 2011–2017 in medium dry and dry years shows that, compared to the long-term average precipitation, it was significantly lower and amounted to 47.2–63.6 mm. In average for the 65 years (1945–2010) evaporation was 722.0 mm, and the deficit of moisture, respectively 487.4 mm. In wet years, the volatility does not exceed 608.6 mm, and the deficit of moisture was made up of 243.6 mm. In average as to water supply years the evaporation increased up to 645.7–746.3 mm and the deficit of moisture increased up to 406.7–507.7 mm. In mid-dry and dry years, evaporation increased up to 769.8–934.5 mm, and the deficit of moisture – up to 580.9–791.0 mm. Conclusions. The decrease in precipitation, especially in dry years, compared to average annual indicators, was recorded in spring period as 24–27% and in autumn – as 62–65%, along with a simultaneous increase in air temperature in those periods as 2.7 and 2.8°C respectively. In general, during the vegetation period the increase in evaporation was 30–31% and the deficit of moisture was 53–55% that resulted in low yields of crops. The main way to overcome the negative impact of global climate change on the agricultural production of the southern Steppe subzone is the effective use and further extending the areas of actual irrigation, that will ensure stable high yields and food security of the state.
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