Feb 10, 2020
Tibpromma S; Hyde K D; Bhat D J; Mortimer P E; Xu J; Promputtha I; Doilom M; Yang J-B; Tang A M C; Karunarathna S C, 2020, "Replication Data for: Identification of endophytic fungi from leaves of Pandanaceae based on their morphotypes and DNA sequence data from southern Thailand", https://doi.org/10.34725/DVN/LG01I9, World Agroforestry - Research Data Repository, V1
The authors established the taxonomic status of endophytic fungi associated with leaves of Pandanaceae collected from southern Thailand. Morphotypes were initially identified based on their characteristics in culture and species level identification was done based on both morphol... |
Feb 10, 2020
Li H; Guo J; Goldberg S D; Sreekar R; Ye L; Luo X; Sysouphanthong P; Xu J C; Hyde K D; Mortimer P E, 2020, "Replication data for: Fruiting patterns of macrofungi in tropical and temperate land use types in Yunnan Province, China", https://doi.org/10.34725/DVN/XVXPQ2, World Agroforestry - Research Data Repository, V2
Despite the important contribution of fungi to forest health, biomass turnover and carbon cycling, little is known about the factors that influence fungal phenology. Therefore, in order to further our understanding on how macrofungal fruiting patterns change along a gradient from... |
Aug 7, 2019
Dossa, GGO; Schaefer, D; Zhang, J; Tao, J; Tao, J; Corlett, RT; Cunningham, AB; Xu, J; Cornelissen, JHC; Harrison, RD, 2018, "The cover uncovered: bark control over wood decomposition", https://doi.org/10.34725/DVN/5PQSTA, World Agroforestry - Research Data Repository, V1, UNF:6:gaNe973OiWneTMxSdanZ4g== [fileUNF]
Woody debris (WD) represents a globally significant carbon stock and its decomposition returns nutrients to the soil while providing habitat to microbes, plants and animals. Understanding what drives WD decomposition is therefore important. 2. WD decomposition rates differ greatl... |

