Substrate Preference Determines Macrofungal Biogeography in the Greater Mekong Sub-Region

Ye, Lei; Li, Huili; Mortimer, Peter E.; Xu, Jianchu; Gui, Heng; Karunarathna, Samantha C.; Kumar, Amit; Hyde, Kevin D.; Shi, Lingling

doi:10.3390/f10100824

Cited by 14 publications

(10 citation statements)

References 52 publications

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“…In contrast, oil palm plantations have homogeneous plant species and the plantation floor is always cleaned. This condition results in a smaller macrofungal species richness in the interior area than its ecotone (Ye et al 2019). The macrofungal species richness in the PTPN 2004 interior area, which was higher compared to its ecotone, was due to the presence of four piles of tankos located at the exploration area.…”

Section: Resultsmentioning

confidence: 97%

“…Species accumulation curves were generated by collector and random methods with 1000 permutations (Schön et al 2018;Atrena et al 2020;Kärvemo et al 2021). The analysis of the macrofungal species distribution was done by Venn diagram (López-Quintero et al 2012;O'Hanlon et al 2013;Brunner et al 2014;Ghate et al 2014;Wei et al 2019;Ye et al 2019;Runnel et al 2021).…”

Section: Discussionmentioning

confidence: 99%

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Changes in landscape ecology between nature reserve and palm oil plantation in West Java, Indonesia based on the observations of macrofungal population

2021

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Abstract. Arko PF, Sudirman LI, Qayim I. 2021. Changes in landscape ecology between nature reserve and palm oil plantation in West Java, Indonesia based on the observations of macrofungal population. Biodiversitas 22: 4526-4537. As the biggest tropical country in Southeast Asia with the third-largest forest, Indonesia has limited data on macrofungal diversity. The limitation of the data is due to the lack of study on macrofungi in high biodiversity locations such as Dungus Iwul Nature Reserve (CADI). The purpose of this study was to determine and analyze the population of macrofungal species caused by the conversion in landscape structure (fragmentation and land-use change) that occurred in CADI patch and oil palm plantation of PT Perkebunan Nusantara VIII (PTPN) matrix, Cigelung, West Java. The sampling method used was opportunistic sampling assisted by line intercept. The macrofungal identification was based on morphological characters. The analysis of community ecology was performed in R programme. The results showed that macrofungal population and diversity in CADI were the highest, followed by PTPN planted in 2004 and planted in 2003, with a significant difference among the three study locations. The community dominance index shows the opposite, with the highest in PTPN 2003 and the lowest in CADI. These results showed changes in macrofungal population and diversity from the conversion in landscape structure. There were eleven indicator species in CADI, two species in PTPN 2003, and five species in PTPN 2004.

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Section: Resultsmentioning

confidence: 97%

Section: Discussionmentioning

confidence: 99%

Changes in landscape ecology between nature reserve and palm oil plantation in West Java, Indonesia based on the observations of macrofungal population

2021

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“…Compared to the close relationship between host plants and EMF (Smith & Read, 2008), NMF are likely to increase in species richness via a greater abundance of available plant litter (Tilman, 2001). As saprophytic fungi, NMF can utilize a wide variety of substrates (Yamashita et al 2008), including soil, litter, living wood, decaying wood, leaves and branches, and their distributions are closely tied to substrate distribution (Ye et al 2019). Therefore, even though NMF have a lower host specificity with host plants (May, 1991; Gilbert & Sousa, 2002), they could potentially increase species richness by niche complementarity (Tilman, 2001).…”

Section: Discussionmentioning

confidence: 99%

Composition of woody plant communities drives macrofungal community composition in three climatic regions

Guo

et al. 2021

J Vegetation Science

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Questions: Macrofungi provide important ecosystem functions and economic value. However, their distributive patterns among woody plant communities and the influence of abiotic factors remain poorly understood. We hypothesized that: (a) the community composition and richness of woody plants are significantly positively correlated with macrofungal community composition and species richness; and (b) in addition to plant effects, abiotic factors (geography and climate) contribute significantly to the variability within macrofungal communities. Location: Northwest (Zhongdian County), west (Baoshan City) and southwest (Xishuangbanna Autonomous Prefecture) Yunnan Province, China. Methods: We investigated macrofungi, woody plants and abiotic factors at 30 plots across three climate types in Yunnan Province, China. We assessed the distributive patterns and driving factors of macrofungal communities in temperate, subtropical and tropical regions.Results: Macrofungal species richness did not significantly increase alongside woody plant species richness, while dissimilarities in macrofungal community compositions across the three climatic regions correlated significantly with woody plant communities, elevation, mean annual precipitation, mean annual temperature, longitude and latitude. Variation partitioning analysis indicated that variations in macrofungal community compositions were explicable by woody plant community composition, as well as by spatial and climatic factors. The Mantel test further revealed that woody plant functional groups shaped macrofungal functional groups. These results indicate that the distribution of macrofungi at the regional scale is mainly affected by woody plant communities, followed by spatial and climatic factors in the three climatic regions. Conclusions:We concluded that dominant woody plant species could be used as indicators of macrofungal community compositions. Accordingly, applying knowledge on the dominant woody plant communities into forest management schemes could be an effective strategy for supporting macrofungal conservation.

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“…Fungal communities living on the wood are closely dependent upon environmental factors, such as the amount, diameter, and stage of wood decomposition [16], wood chemistry [17], age [18], and tree species [19]. Factors influencing terricolous saprotrophic communities include litter quantity and pH [20], soil P content [21,22], plant species [23,24], and temperature [25]. The processes of natural or human-induced change in the vegetation composition of forests are also important drivers of fungal diversity [26][27][28], as they are associated with significant changes in litter and soil quality in the long term [29][30][31].…”

Section: Introductionmentioning

confidence: 99%

Exploring the Relationships between Macrofungi Diversity and Major Environmental Factors in Wunvfeng National Forest Park in Northeast China

Tuo

et al. 2022

JoF

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In this paper, we analyze the macrofungi communities of five forest types in Wunvfeng National Forest Park (Jilin, China) by collecting fruiting bodies from 2019–2021. Each forest type had three repeats and covered the main habitats of macrofungi. In addition, we evaluate selected environmental variables and macrofungi communities to relate species composition to potential environmental factors. We collected 1235 specimens belonging to 283 species, 116 genera, and 62 families. We found that Amanitaceae, Boletaceae, Russulaceae, and Tricholomataceae were the most diverse family; further, Amanita, Cortinarius, Lactarius, Russula, and Tricholoma were the dominant genera in the area. The macrofungi diversity showed increasing trends from Pinus koraiensis Siebold et Zuccarini forests to Quercus mongolica Fischer ex Ledebour forests. The cumulative species richness was as follows: Q. mongolica forest A > broadleaf mixed forest B > Q. mongolica, P. koraiensis mix forest D (Q. mongolica was the dominant species) > Q. mongolica and P. koraiensis mix forest C (P. koraiensis was the dominant species) > P. koraiensis forest (E). Ectomycorrhizal fungi were the dominant functional group; they were mainly in forest type A and were influenced by soil moisture content and Q. mongolica content (p < 0.05). The wood-rotting fungus showed richer species diversity than other forest types in broadleaf forests A and B. Overall, we concluded that most fungal communities preferred forest types with a relatively high Q. mongolica content. Therefore, the deliberate protection of Q. mongolica forests proves to be a better strategy for maintaining fungal diversity in Wunvfeng National Forest Park.

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Substrate Preference Determines Macrofungal Biogeography in the Greater Mekong Sub-Region

Cited by 14 publications

References 52 publications

Changes in landscape ecology between nature reserve and palm oil plantation in West Java, Indonesia based on the observations of macrofungal population

Changes in landscape ecology between nature reserve and palm oil plantation in West Java, Indonesia based on the observations of macrofungal population

Composition of woody plant communities drives macrofungal community composition in three climatic regions

Exploring the Relationships between Macrofungi Diversity and Major Environmental Factors in Wunvfeng National Forest Park in Northeast China

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