{"title":"不同品种春小麦碳耕作适宜性评价","authors":"A. Lukmanova, Fanyusya Kadyrova, R. Safin","doi":"10.12737/2782-490x-2023-27-33","DOIUrl":null,"url":null,"abstract":"The paper presents an assessment of the suitability of various genotypes (cultivars) of spring wheat for use in carbon farming. For these purposes, indicators of the carbon footprint and the balance of greenhouse gases in the cultivation of each of the genotypes were determined. The studies were carried out in 2022 on the experimental fields of the Kazan State Agrarian University, under conditions of sufficient moisture, especially in the first half of the plant growing season. Agrotechnology for cultivation of varieties was recommended for the area of the Pre-Kama region of the Republic of Tatarstan. The calculation of the carbon footprint (CFR) was carried out on the basis of greenhouse gas (GHG) emissions in kg of carbon dioxide equivalent (CO2 equivalent) per kg of product (grain). To determine the volume of greenhouse gas emissions, data on the consumption of fuel, synthetic fertilizers, pesticides were used, and direct and indirect N2O emissions associated with the mineralization of wheat plant residues were also taken into account. The objects of research were nineteen genotypes of spring wheat of domestic selection. In the conditions of 2022, the yield of various varieties of spring wheat fluctuated over a wide range (from 2.64 t/ha for the Tulaikovskaya 108 variety to 4.75 t/ha for the Ulyanovsk 105 variety), reaching an average of 3.76 t/ha for all varieties. The results of the assessment of the CFP value showed that on average it amounted to about 0.49 kg CO2 eq. per kg -1, and the coefficient of variation of the indicator for all varieties was 9.99%, which indicates a weak variability. The lowest carbon footprints were found in Khayat (0.40 kg CO2 eq/kg-1), Ulyanovskaia 105 and Ura-Losibirskaya 2 (0.42 kg CO2 eq/kg-1). For most of the studied spring wheat varieties, the greenhouse gas balance was negative (on average -386.08 kg CO2 eq. per ha). However, in the varieties Idelle, Tulaikovskaya Nadezhda and Zlata, the balance was positive, which is associated with the entry into the soil of a significant amount of plant residues and straw in these varieties. Thus, out of 19 varieties of spring wheat, only 3 have prospects for use in carbon farming. The results obtained confirmed the need to study the carbon footprint and balance of greenhouse gases when assessing spring wheat genotypes in breeding programs for carbon farming.","PeriodicalId":198484,"journal":{"name":"Agrobiotechnologies and digital farming","volume":"12 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-04-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"SUITABILITY EVALUATION OF DIFFERENT VARIETIES SPRING WHEAT FOR CARBON FARMING\",\"authors\":\"A. Lukmanova, Fanyusya Kadyrova, R. Safin\",\"doi\":\"10.12737/2782-490x-2023-27-33\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The paper presents an assessment of the suitability of various genotypes (cultivars) of spring wheat for use in carbon farming. For these purposes, indicators of the carbon footprint and the balance of greenhouse gases in the cultivation of each of the genotypes were determined. The studies were carried out in 2022 on the experimental fields of the Kazan State Agrarian University, under conditions of sufficient moisture, especially in the first half of the plant growing season. Agrotechnology for cultivation of varieties was recommended for the area of the Pre-Kama region of the Republic of Tatarstan. The calculation of the carbon footprint (CFR) was carried out on the basis of greenhouse gas (GHG) emissions in kg of carbon dioxide equivalent (CO2 equivalent) per kg of product (grain). To determine the volume of greenhouse gas emissions, data on the consumption of fuel, synthetic fertilizers, pesticides were used, and direct and indirect N2O emissions associated with the mineralization of wheat plant residues were also taken into account. The objects of research were nineteen genotypes of spring wheat of domestic selection. In the conditions of 2022, the yield of various varieties of spring wheat fluctuated over a wide range (from 2.64 t/ha for the Tulaikovskaya 108 variety to 4.75 t/ha for the Ulyanovsk 105 variety), reaching an average of 3.76 t/ha for all varieties. The results of the assessment of the CFP value showed that on average it amounted to about 0.49 kg CO2 eq. per kg -1, and the coefficient of variation of the indicator for all varieties was 9.99%, which indicates a weak variability. The lowest carbon footprints were found in Khayat (0.40 kg CO2 eq/kg-1), Ulyanovskaia 105 and Ura-Losibirskaya 2 (0.42 kg CO2 eq/kg-1). For most of the studied spring wheat varieties, the greenhouse gas balance was negative (on average -386.08 kg CO2 eq. per ha). However, in the varieties Idelle, Tulaikovskaya Nadezhda and Zlata, the balance was positive, which is associated with the entry into the soil of a significant amount of plant residues and straw in these varieties. Thus, out of 19 varieties of spring wheat, only 3 have prospects for use in carbon farming. The results obtained confirmed the need to study the carbon footprint and balance of greenhouse gases when assessing spring wheat genotypes in breeding programs for carbon farming.\",\"PeriodicalId\":198484,\"journal\":{\"name\":\"Agrobiotechnologies and digital farming\",\"volume\":\"12 1\",\"pages\":\"0\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2023-04-02\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Agrobiotechnologies and digital farming\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.12737/2782-490x-2023-27-33\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Agrobiotechnologies and digital farming","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.12737/2782-490x-2023-27-33","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
摘要
本文对春小麦不同基因型(品种)在碳农业中的适用性进行了评价。为此,测定了各基因型栽培过程中的碳足迹和温室气体平衡指标。这些研究于2022年在喀山国立农业大学的试验田进行,条件是水分充足,特别是在植物生长季节的前半段。建议在鞑靼斯坦共和国的前卡马地区采用种植品种的农业技术。碳足迹(CFR)的计算是基于每公斤产品(粮食)以公斤二氧化碳当量(CO2当量)为单位的温室气体(GHG)排放量进行的。为了确定温室气体的排放量,使用了燃料、合成肥料和农药的消耗数据,并考虑了与小麦植物秸秆矿化相关的直接和间接N2O排放。研究对象为国内选育的19个春小麦基因型。在2022年的条件下,各品种春小麦的产量波动幅度很大(从图莱科夫斯卡娅108品种的2.64吨/公顷到乌里扬诺夫斯克105品种的4.75吨/公顷),所有品种的平均产量达到3.76吨/公顷。CFP值的评估结果表明,每kg -1平均约为0.49 kg CO2当量,各品种的变异系数为9.99%,变异性较弱。碳足迹最低的是Khayat (0.40 kg CO2 eq/kg-1)、Ulyanovskaia 105和Ura-Losibirskaya 2 (0.42 kg CO2 eq/kg-1)。大部分春小麦品种的温室气体平衡为负(平均每公顷-386.08 kg CO2当量)。而在品种Idelle、Tulaikovskaya Nadezhda和Zlata中,平衡为正,这与这些品种中大量的植物残茬和秸秆进入土壤有关。因此,在19个春小麦品种中,只有3个品种具有碳农业应用前景。这些结果证实了在评估春小麦基因型时研究碳足迹和温室气体平衡的必要性。
SUITABILITY EVALUATION OF DIFFERENT VARIETIES SPRING WHEAT FOR CARBON FARMING
The paper presents an assessment of the suitability of various genotypes (cultivars) of spring wheat for use in carbon farming. For these purposes, indicators of the carbon footprint and the balance of greenhouse gases in the cultivation of each of the genotypes were determined. The studies were carried out in 2022 on the experimental fields of the Kazan State Agrarian University, under conditions of sufficient moisture, especially in the first half of the plant growing season. Agrotechnology for cultivation of varieties was recommended for the area of the Pre-Kama region of the Republic of Tatarstan. The calculation of the carbon footprint (CFR) was carried out on the basis of greenhouse gas (GHG) emissions in kg of carbon dioxide equivalent (CO2 equivalent) per kg of product (grain). To determine the volume of greenhouse gas emissions, data on the consumption of fuel, synthetic fertilizers, pesticides were used, and direct and indirect N2O emissions associated with the mineralization of wheat plant residues were also taken into account. The objects of research were nineteen genotypes of spring wheat of domestic selection. In the conditions of 2022, the yield of various varieties of spring wheat fluctuated over a wide range (from 2.64 t/ha for the Tulaikovskaya 108 variety to 4.75 t/ha for the Ulyanovsk 105 variety), reaching an average of 3.76 t/ha for all varieties. The results of the assessment of the CFP value showed that on average it amounted to about 0.49 kg CO2 eq. per kg -1, and the coefficient of variation of the indicator for all varieties was 9.99%, which indicates a weak variability. The lowest carbon footprints were found in Khayat (0.40 kg CO2 eq/kg-1), Ulyanovskaia 105 and Ura-Losibirskaya 2 (0.42 kg CO2 eq/kg-1). For most of the studied spring wheat varieties, the greenhouse gas balance was negative (on average -386.08 kg CO2 eq. per ha). However, in the varieties Idelle, Tulaikovskaya Nadezhda and Zlata, the balance was positive, which is associated with the entry into the soil of a significant amount of plant residues and straw in these varieties. Thus, out of 19 varieties of spring wheat, only 3 have prospects for use in carbon farming. The results obtained confirmed the need to study the carbon footprint and balance of greenhouse gases when assessing spring wheat genotypes in breeding programs for carbon farming.
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