Does Gamasid mites (Acari, Mesostigmata) observed in oil palm and rubber plantations can be used as indicators of tropical secondary forest soil transformation?

Julien K. N’Dri, Raymond Yao Ray Koffi, Basile Moustapha Diarra, Saint Cyrille Kouamé Manou
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Abstract

The aim of the study was to assess modifications in the community of soil mesostigmatid mites’, as indicator of environment stability with land-use change across 2–4 texturally distinct soils in La Mé and Grand Lahou, Côte d’Ivoire. The fieldwork was carried out in humid period on two study sites: 1– rubber landscape (secondary forest, 7-, 12- and 25-year-old rubber plantations) and 2– oil palm landscape (secondary forest, 13-, 20- and 39-year-old oil palm plantations). Three sampling stands were established in each land-use type and age class, for a total of 24 sampling stands. On each sampling stands, soil cores for Gamasid mite’s extraction were taken at 10 cm soil depth through a 40–50 m transect. Our findings highlighted a drop of mesostigmatid mites’ density (–49% and –52%), species richness (–41% and –40%), and diversity (–35% and –49%), respectively after conversion of the secondary forests into rubber and oil palm plantations. The soil with clayey sandy and clayey textures favored the development of the mesostigmatid mites, particularly in the abundance and species richness of Uropodina. However, the soil with sandy clayey textures improved the abundance and species richness of Gamasina. The mesostigmatid mites’ community was degraded in sandy-textured soils. In light of the Maturity Index values, a better quality of soil and environment was detected in the secondary forests compared to plantations. The results also suggest that the mesostigmatid mites’ community influence the soil nutrients and probably plant productivity indirectly by influencing the populations of their prey.
油棕和橡胶林中革螨(Acari, Mesostigmata)是否可以作为热带次生林土壤转化的指标?
该研究的目的是评估土壤中污螨群落的变化,作为土地利用变化在La m和Grand Lahou, Côte d '科特迪瓦2-4个质地不同的土壤中的环境稳定性指标。野外调查于湿润期在两个研究点进行:1 .橡胶景观(次生林,7年、12年和25年橡胶种植园)和2 .油棕景观(次生林,13年、20年和39年油棕种植园)。在每个土地利用类型和年龄类别中建立3个样林,共24个样林。在每个采样站上,在40-50米的样带中,在10厘米的土壤深度取土芯用于革螨的提取。次生林改造为橡胶林和油棕林后,中皮螨密度(-49%和-52%)、物种丰富度(-41%和-40%)和多样性(-35%和-49%)分别下降。粘土质、砂质和粘土质土壤有利于中皮螨的发育,尤其是尾足螨的丰度和种类丰富度。砂质粘土质土壤提高了革麻虫的丰度和物种丰富度。在砂质土中,中皮螨群落退化。从成熟度指数来看,次生林的土壤和环境质量优于人工林。结果还表明,中皮螨群落通过影响其猎物的数量间接影响土壤养分,并可能间接影响植物生产力。
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