小气候与贝宁几内亚-苏丹生态区两种外生菌根真菌自然生产的时空动态

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-10-03 DOI:10.1016/j.gecco.2024.e03238
Abdoul-Azize Boukary, Issifou Kassim Tchan, Roël Dire Houdanon, Armel Boris Olou, Sylvestre Akotchayé Badou, Ghislaine Yahouedehou, Apollon Dossou Migan Tadagbé Hegbe, Nourou Soulemane Yorou
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引用次数: 0

摘要

本研究旨在确定几内亚-苏丹生态区域的小气候与天南星(Amanita subviscosa)和蝙蝠蛾(Lactifluus gymnocarpoides)自然产量之间的关系。在贝宁中部 "Ouémé Supérieur "森林保护区的三种不同植被中设置了九个 50 × 50 米的永久性地块。真菌学调查在 6 月至 10 月的三 (3) 个真菌学季节进行,每个地块每周两次。记录了子实体的数量和新鲜生物量。微气候参数(土壤含水量、空气温度、土壤温度、相对湿度和降水量)是通过安装在每个小区中间的雨量计和 HOBO 微型站数据记录器测量的。我们使用 lme4 软件包测试了多个广义线性混合效应模型(GLMM),以获得所记录的小气候因子对各物种果体数量的影响,并使用 nlme 软件包测试了线性混合效应模型(LMM)对新鲜生物量的影响。研究表明,土壤含水量是真菌结果物候期和生物量增加的主要驱动因素。子囊菌(A. subviscosa)的结果期受气温和土壤含水量的正向影响(p = 0.0004),但受相对空气湿度的负向影响。L. gymnocarpoides 的结果只受气温的积极影响,而受相对空气湿度和土壤含水量的消极影响。土壤含水量对 A. subviscosa 的新鲜生物量影响很大(p≈0),而 L. gymnocarpoides 的新鲜生物量受土壤含水量和相对空气湿度的影响很大(p≈0)。所有物种的自然生产都对小气候参数的变化有特定的反应。
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Microclimate and the spatio-temporal dynamics of natural production of two ectomycorrhizal fungi from the Guineo-Sudanian ecozone in Benin
The study aims to determine the relation between the micro-climate and the natural production of Amanita subviscosa, and Lactifluus gymnocarpoides, in the Guinea-Sudanian ecozone. Nine permanent plots of 50 ×50 m were installed in three different vegetations of the “Ouémé Supérieur” forest reserve in central Benin. The mycological surveys were carried out during three (3) mycological seasons, each from June to October at a frequency of two visits per week and per plot. The number of fruiting bodies and the fresh biomass were recorded. Microclimatic parameters (soil water content, air temperature, soil temperature, relative humidity and precipitation) were measured using a rain gauge and a HOBO micro station data logger installed at the middle of each plot. We tested several Generalized Linear Mixed Effects Models (GLMM) using the lme4 package to obtain the effect of recorded microclimate factor on the number of fruit bodies of each species and the Linear Mixed Effects Model (LMM) using the package nlme for fresh biomass. The study showed that soil water content is the main driver of fungal fruiting phenology and increased biomass production. The fruiting of A. subviscosa is positively affected by air temperature and soil water content (p = 0.0004) but negatively affected by relative air humidity. The fructification of L. gymnocarpoides is only positively affected by the air temperature and negatively affected by relative air humidity and soil water content. Soil water content significantly affects the fresh biomass of A. subviscosa (p≈0) while the fresh biomass of L. gymnocarpoides is significantly affected by soil water content and relative air humidity (p≈0). All species for their natural production have specific response at microclimate parameters variation.
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