Exploring the Influence of Diverse Viticultural Systems on Soil Health Metrics in the Northern Black Sea Region

IF 2.9 Q2 SOIL SCIENCE
Valeria Gabechaya, I. Andreeva, Dmitriy Morev, A. Yaroslavtsev, A. Neaman, I. Vasenev
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Abstract

The present study investigates the functionalecological status of typical light clay soils in vineyards in the southern region of Crimea, using both traditional (including fallow soils) and organic land-use systems. This analysis was carried out by examining agrochemical indicators, microbial respiratory activity, microbial biomass, and the ecological status of the microbial community. In organic vineyard soils, the mean substrate-induced respiration, microbial biomass carbon and the ratio of microbial biomass to organic carbon were found to be 2.8, 4.0, and 4.1 times higher, respectively, compared to conventional farm soils. On the contrary, the microbial metabolic coefficient was 1.4 times lower, signifying more favorable conditions for the functioning of the soil microbiota. The increased mobile sulfur content in organic vineyard soils (18.3 mg kg−1 vs. 8.0 mg kg−1 in traditional farms) and inadequate mobile phosphorus supply in some farms present potential risks. The suboptimal functional state of the microbiome in fallow soils previously under traditional plant protection necessitates comprehensive ecotoxicological analyses before development. Assessing the soil functional ecological status through an ecophysiological evaluation of the microbiome is vital for understanding ampelocenosis soils and making informed decisions on vineyard management practices.
探讨黑海北部地区不同葡萄栽培制度对土壤健康指标的影响
本研究利用传统土地利用系统(包括休耕土壤)和有机土地利用系统,调查了克里米亚南部地区葡萄园中典型轻质粘土土壤的功能生态状况。这项分析是通过检查农业化学指标、微生物呼吸活性、微生物生物量和微生物群落的生态状况来进行的。在有机葡萄园土壤中,与传统农田土壤相比,基质诱导的平均呼吸、微生物生物量碳和微生物生物量与有机碳的比率分别高出2.8、4.0和4.1倍。相反,微生物代谢系数低1.4倍,这意味着土壤微生物群的功能条件更有利。有机葡萄园土壤中流动硫含量增加(18.3 mg kg−1,而传统农场为8.0 mg kg−2),一些农场的流动磷供应不足,存在潜在风险。先前在传统植物保护下的休耕土壤中微生物组的次优功能状态需要在开发前进行全面的生态毒理学分析。通过对微生物组的生态生理学评估来评估土壤功能生态状况,对于了解葡萄园土壤和就葡萄园管理实践做出明智的决定至关重要。
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来源期刊
Soil Systems
Soil Systems Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
5.30
自引率
5.70%
发文量
80
审稿时长
11 weeks
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