S. A. Kulachkova, E. N. Derevenets, P. S. Korolev, V. V. Pronina
{"title":"The Effect of Mineral Fertilizers on Soil Respiration in Urban Lawns","authors":"S. A. Kulachkova, E. N. Derevenets, P. S. Korolev, V. V. Pronina","doi":"10.3103/s0147687423030080","DOIUrl":null,"url":null,"abstract":"Abstract Application of mineral fertilizers to regulate microbial respiration and carbon dioxide emissions from urban lawn soils was evaluated due to the need to develop technologies for reducing CO 2 emissions and for increasing the C-absorption capacity of natural and anthropogenic ecosystems. The studies were performed in the Botanical Garden of Moscow State University on Leninskie Hills in a small-plot experiment with the fractional application of four types of complex fertilizers (NPKS 27 : 6 : 6 : 2, NPKS 21 : 10 : 10 : 2, NPK 15 : 15 : 15 and NPK 18:18:18 + 3 MgO + trace elements (TE)) at the doses of 60 and 120 kg N/ha during the growing season. We studied the basal respiration (BR) of soils, carbon content of microbial biomass (C mic ) by substrate-induced respiration, and the CO 2 emission from soils by the method of closed static chambers. C mic in soil of the control plot in the summer period was 1300–1450 µg/g. Application of NPKS 21 : 10 : 10 : 2 and NPK 18 : 18 : 18 + 3 MgO + TE at a low dose increased C mic by 12–35% within the first two weeks, and then it dropped. All types of fertilizers applied for a short period of time increased BR of soils and CO 2 emission maximum on the sixth day. After two weeks and onwards, their growth decreased or their intensity dropped to the control values (500 mg CO 2 m 2 /h –1 and 1.5 μg C–CO 2 g/h, respectively) and lower. The lowest intensity of CO 2 emission, a rise in basal respiration, and an increase in microbial biomass were recorded after the application of fertilizer NPKS 21 : 10 : 10 : 2. The change in the functioning of the soil microbial community detected by the maximal q CO 2 was the greatest in case of NPKS 27 : 6 : 6 : 2 application. The dynamics of CO 2 emission from the soils of the small-plot experiment from April to October correlated with the soil temperature ( r S = 0.66, p < 0.05, n = 135). Emissions of CO 2 were minimal for the plot with NPKS 21 : 10 : 10 : 2 in all periods of the study.","PeriodicalId":489470,"journal":{"name":"Moscow University Soil Science Bulletin","volume":"28 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Moscow University Soil Science Bulletin","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.3103/s0147687423030080","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
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Abstract
Abstract Application of mineral fertilizers to regulate microbial respiration and carbon dioxide emissions from urban lawn soils was evaluated due to the need to develop technologies for reducing CO 2 emissions and for increasing the C-absorption capacity of natural and anthropogenic ecosystems. The studies were performed in the Botanical Garden of Moscow State University on Leninskie Hills in a small-plot experiment with the fractional application of four types of complex fertilizers (NPKS 27 : 6 : 6 : 2, NPKS 21 : 10 : 10 : 2, NPK 15 : 15 : 15 and NPK 18:18:18 + 3 MgO + trace elements (TE)) at the doses of 60 and 120 kg N/ha during the growing season. We studied the basal respiration (BR) of soils, carbon content of microbial biomass (C mic ) by substrate-induced respiration, and the CO 2 emission from soils by the method of closed static chambers. C mic in soil of the control plot in the summer period was 1300–1450 µg/g. Application of NPKS 21 : 10 : 10 : 2 and NPK 18 : 18 : 18 + 3 MgO + TE at a low dose increased C mic by 12–35% within the first two weeks, and then it dropped. All types of fertilizers applied for a short period of time increased BR of soils and CO 2 emission maximum on the sixth day. After two weeks and onwards, their growth decreased or their intensity dropped to the control values (500 mg CO 2 m 2 /h –1 and 1.5 μg C–CO 2 g/h, respectively) and lower. The lowest intensity of CO 2 emission, a rise in basal respiration, and an increase in microbial biomass were recorded after the application of fertilizer NPKS 21 : 10 : 10 : 2. The change in the functioning of the soil microbial community detected by the maximal q CO 2 was the greatest in case of NPKS 27 : 6 : 6 : 2 application. The dynamics of CO 2 emission from the soils of the small-plot experiment from April to October correlated with the soil temperature ( r S = 0.66, p < 0.05, n = 135). Emissions of CO 2 were minimal for the plot with NPKS 21 : 10 : 10 : 2 in all periods of the study.
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