土壤对野猪的即时反应定量研究在地中海橄榄果园里采摘

IF 2.9 Q2 SOIL SCIENCE Soil Systems Pub Date : 2023-04-17 DOI:10.3390/soilsystems7020038
Pasquale Napoletano, Costantina Barbarisi, V. Maselli, D. Rippa, C. Arena, M. G. Volpe, C. Colombo, D. Fulgione, A. De Marco
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引用次数: 0

摘要

本研究的目的是评估入侵野猪(Sus scrofa L.)对意大利南部橄榄园的直接影响。在为期一年的研究中,我们测量了在0 ~ 15 cm和15 ~ 40 cm深度土壤快速生物和化学响应的季节变化,以及叶片和果实的一些特征。影响因子IFG用于量化野猪对个别土壤参数的影响。啃食导致两个深度的土壤水分增加。土壤pH、有机质和C/N比值在0 ~ 15 cm处高于未蛴螬土壤,在15 ~ 40 cm处低于未蛴螬土壤。这些趋势反映在表层土壤中微生物群落生物量较高,真菌部分受到抑制,而在15-40 cm处则相反。表层土壤微生物生物量IFG(94%)和代谢商(85%)在15 ~ 40 cm深度最高。在两个深度上发现了微生物胁迫条件和碳损失。此外,这些土壤的质量也低于未开垦的土壤,特别是在0-15 cm (SQI分别= 0.40和0.50)。在秋冬季节,野猪啃食对果实多酚含量的负面影响更大。
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Quantifying the Immediate Response of Soil to Wild Boar (Sus scrofa L.) Grubbing in Mediterranean Olive Orchards
The goals of the current research were to assess the immediate impact of invasive wild boar (Sus scrofa L.) in olive orchards of southern Italy. Over a one-year study, in grubbed and ungrubbed areas, we measured the seasonal changes on the fast soil biological and chemical responses at depths of 0–15 cm and 15–40 cm, and several leaf and fruit characteristics. The impact factor, IFG, was used to quantify the effects of wild boar on individual soil parameters. Grubbing induced an increase in the soil moisture at both depths. Soil pH, organic matter, and C/N ratio were higher in grubbed soils at 0–15 cm and lower at 15–40 cm compared to ungrubbed soils. These trends were reflected in the higher microbial community biomass and the inhibition of fungal fraction in grubbed topsoil, while an opposite tendency at 15–40 cm was found. Microbial biomass had the highest IFG in topsoil (94%) and metabolic quotient (85%) at a 15–40 cm depth. Microbial stress condition and C loss were found in grubbed soil at both depths. Furthermore, these soils were also shown to be of lower quality than ungrubbed soils, especially at 0–15 cm (SQI = 0.40 vs. 0.50, respectively). A stronger negative impact of wild boar grubbing was observed in the Autumn/Winter and for fruit polyphenol content.
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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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