Back Article

Rojas C, Stephenson SL. 2021. Myxomycetes: Biology, Systematics, Biogeography and Ecology, 2^nd Edition. Amsterdam: Academic Press. doi: 10.1016/C2020-0-01675-0

Redeña-Santos JC, Dunca JAU, Thao DV, Dagamac NHA. 2017. Myxomycetes occurring on selected agricultural leaf litters. Studies in Fungi 2(1):171−177

Rojas C, Rollins AW, Valverde R. 2021. Generation of myxomycete data from three discrete experiments using moist chamber cultures in a Neotropical forest. Studies in Fungi 6(1):450−459

Rojas C, Valverde R, Rojas PA. 2022. Myxomycetes associated with three different types of Neotropical urban landscapes. Studies in Fungi 7:14

Rojas C, Valverde R, Calvo E. 2016. Does elevation influence the distributional patterns of tropical myxomycetes? A case study in Costa Rica. Mycology 7(2):45−52

El-Debaiky SA, Mahmoud YAG. 2022. First record of Lepidoderma carestianum and Arthrinium bambusicola from Egypt. Studies in Fungi 7:10

Kirk PM, Cannon PF, Minter DW, Stalpers JA. 2008. Dictionary of the Fungi, 10^th Edition. Wallingford, UK: CAB International. doi: 10.1079/9780851998268.0000

Dagamac NHA, Stephenson SL, Dela Cruz TEE. 2012. Occurrence, distribution and diversity of myxomycetes (plasmodial slime moulds) along two transects in Mt. Arayat National Park, Pampanga, Philippines. Mycology 3:119−126

Ranade VD, Korade ST, Jagtap AV, Ranadive KR. 2012. Checklist of Myxomycetes from India. Mycosphere 3(3):358−390

Keekan KK, Ranadive KR. 2017. Occurrence of Stemonitis axifera (Bull.) T. Macbr. (Myxomycota: Stemonitales) in Pondicherry, a union territory of India. Studies in Fungi 2(1):106−111

Ranadive KR, Jagtap NV, Ranade VD. 2017. IMD: the first online database of documentation on Myxomycetes fungi from India. Studies in Fungi 2(1):76−91

Myers N, Mittermeier RA, Mittermeier CG, da Fonseca GAB, Kent J. 2000. Biodiversity hotspots for conservation priorities. Nature 403:853−858

UNESCO 2022. Neora Valley National Park. https://whc.unesco.org/en/tentativelists/5447/. (Accessed on 07 May 2022)

Pradhan P. 2015. Potential distribution of Monotropa uniflora L. as a surrogate for range of Monotropoideae (Ericaceae) in South Asia. Biodiversitas Journal of Biological Diversity 16(2):109−115

Yonzone R. 2019. Exploration of orchid species: first annual biodiversity camp of Neora Valley National Park, Kalimpong, under Gorumara Wildlife Division, West Bengal, India. Plantae Scientia 1:76−80

Ghosh U, Bhattacharyya S, Bose A, Goswami N, Rai A, et al. 2021. On occurrence of three parasitic angiosperms within Neora Valley National Park. Annals of Plant Sciences 10(9):4280−4282

Majumdar S, Rai BS, Rai A, Ghosh U, Bhattacharyya S, et al. 2022. Discovery of a rare stiped puffball Calostoma junghuhnii in Neora Valley National Park, India: a new record for West Bengal, India. Asian Journal of Forestry 6:9−14

Cantlon JE. 1953. Vegetation and microclimates on North and South Slopes of Cushetunk Mountain, New Jersey. Ecological Monographs 23(3):241−270

Kosmas C, Kirkby M, Geeson N. 1999. Manual on key indicators of desertification and mapping environmentally sensitive areas to desertification. Luxembourg: European Commission, Energy, Environment and Sustainable Development. www.comap.ca/kmland/getdocument.php?F=1457437359_4c71c8ac0163a3.55683489

Rojas C, Stephenson SL, Rojas PA. 2020. Myxomycete colonization on translocated and non-translocated dead leaves from temperate and tropical forests. Studies in Fungi 5(1):462−470

Dal Ferro N, Sartori L, Simonetti G, Berti A, Morari F. 2014. Soil macro- and microstructure as affected by different tillage systems and their effects on maize root growth. Soil and Tillage Research 140:55−65

Twum EKA, Nii-Annang S. 2015. Impact of soil compaction on bulk density and root biomass of Quercus petraea L. at reclaimed post-lignite mining site in Lusatia, Germany. Applied and Environmental Soil Science 2015:504603

Soong JL, Janssens IA, Grau O, Margalef O, Stahl C, et al. 2020. Soil properties explain tree growth and mortality, but not biomass, across phosphorus-depleted tropical forests. Scientific Reports 10:2302

Oehl F, Frossard E, Fliessbach A, Dubois D, Oberson A. 2004. Basal organic phosphorus mineralization in soils under different farming systems. Soil Biology and Biochemistry 36(4):667−675

Prajisha CK, Achu AL, Joseph S. 2023. Landslide susceptibility modeling using a generalized linear model in a tropical river basin of the Southern Western Ghats, India. In: Science of Sustainable Systems, Water, Land, and Forest Susceptibility and Sustainability: Geospatial Approaches and Modeling, Vol. 1, eds. Chatterjee U, Pradhan B, Kumar S, Saha S, Zakwan M, et al. Amsterdam: Elsevier. pp. 237−266 doi: 10.1016/b978-0-323-91880-0.00004-0

Appelhans T, Detsch F, Reudenbach C, Woellauer S. 2022. mapview: Interactive Viewing of Spatial Data in R. R package. Version 2.11.4. https://CRAN.R-project.org/package=mapview

R Core Team 2020. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. www.R-project.org/

Rojas C, Rollins AW. 2022. The role of sampling methodology and site selection on myxomycete data from the Neotropics. Studies in Fungi 7:2

Fick SE, Hijmans RJ. 2017. WorldClim 2: new 1-km spatial resolution climate surfaces for global land areas. International Journal of Climatology 37(12):4302−4315

Pradhan P. 2019. Testing equivalency of interpolation derived bioclimatic variables with actual precipitation: a step towards selecting more realistic explanatory variables for species distribution modelling. Research Journal of Chemistry and Environment 23:38−41

ISRIC 2022. The International Soil Reference and Information Centre (ISRIC). https://git.wur.nl/isric/soilgrids/soilgrids.notebooks/-/blob/master/markdown/wcs_from_R.md. (Accessed on 10 December 2022)

Gavito ME, Leyva-Morales R, Vega-Peña EV, Arita H, Jairus T, et al. 2019. Local-scale spatial diversity patterns of ectomycorrhizal fungal communities in a subtropical pine-oak forest. Fungal Ecology 42:100860

Gábor L, Jetz W, Lu M, Rocchini D, Cord A, et al. 2022. Positional errors in species distribution modelling are not overcome by the coarser grains of analysis. Methods in Ecology and Evolution 13(10):2289−2302

Almadrones-Reyes KJ, Dagamac NHA. 2018. Predicting local habitat suitability in changing climate scenarios: applying species distribution modelling for Diderma hemisphaericum. Current Research in Environmental & Applied Mycology 8(5):492−500

Dagamac NHA, Bauer B, Woyzichovski J, Shchepin ON, Novozhilov YK, et al. 2021. Where do nivicolous myxomycetes occur? – Modeling the potential worldwide distribution of Physarum albescens. Fungal Ecology 53:101079

Limbo-Dizon JE, Almadrones-Reyes KJ, Macabago SAB, Dagamac NHA. 2022. Bioclimatic modeling for the prediction of the suitable regional geographical distribution of selected bright-spored myxomycetes in the Philippine Archipelago. Biodiversitas Journal of Biological Diversity 23:2285−2294

Kotowski MA, Molnár Z, Łuczaj Ł. 2021. Fungal ethnoecology: observed habitat preferences and the perception of changes in fungal abundance by mushroom collectors in Poland. Journal of Ethnobiology and Ethnomedicine 17(1):29

Pradhan P. 2016. Strengthening MaxEnt modelling through screening of redundant explanatory bioclimatic variables with variance inflation factor analysis. Researcher 8(5):29−34

Naimi B, Hamm NAS, Groen TA, Skidmore AK, Toxopeus AG. 2014. Where is positional uncertainty a problem for species distribution modelling? Ecography 37:191−203

Adde A, Rey PL, Fopp F, Petitpierre B, Schweiger AK, et al. 2023. Too many candidates: embedded covariate selection procedure for species distribution modelling with the covsel R package. Ecological Informatics 75:102080

Velazco SJE, Rose MB, de Andrade AFA, Minoli I, Franklin J. 2022. flexsdm: an R package for supporting a comprehensive and flexible species distribution modelling workflow. Methods in Ecology and Evolution 13(8):1661−1669

Pearson RG, Raxworthy CJ, Nakamura M, Peterson AT. 2007. Predicting species distributions from small numbers of occurrence records: a test case using cryptic geckos in Madagascar. Journal of Biogeography 34:102−117

Yates LA, Aandahl Z, Richards SA, Brook BW. 2023. Cross validation for model selection: a review with examples from ecology. Ecological Monographs 93(1):e1557

Byram GM. 1948. Terrestrial radiation and its importance in some forestry problems. Journal of Forestry 46(9):653−658

Tamene GM, Adiss HK, Alemu MY. 2020. Effect of slope aspect and land use types on selected soil physicochemical properties in North Western Ethiopian Highlands. Applied and Environmental Soil Science 2020:8463259

Rojas C, Doss RG. 2014. Does habitat loss affect tropical myxomycetes? Mycosphere 5(5):692−700

Breiner FT, Guisan A, Bergamini A, Nobis MP. 2015. Overcoming limitations of modelling rare species by using ensembles of small models. Methods in Ecology and Evolution 6(10):1210−1218

Walker LM, Rojas C, Stephenson SL. 2015. The myxomycetes of the La Selva Biological Station (Costa Rica). Austrian Journal of Mycology 24:99−111

Keller HW, Everhart SE. 2010. Importance of Myxomycota in biological research and teaching. Fungi 3:13−27