https://ipt.gbif.org/resource?r=marie-test-dwca Mapping the wild ectomycorrhizal fungi of Meise Botanic Garden from 2006 to 2012 Meise Botanic Garden Meise Botanic Garden Garden
BE
Pieter Huybrechts Meise Botanic Garden Researcher
BE
pieter.huybrechts@plantentuinmeise.be 0000-0002-6658-6062
Iris Van der Beeten Meise Botanic Garden Researcher
BE
iris.vanderbeeten@plantentuinmeise.be
Pieter Huybrechts Meise Botanic Garden RESEARCHER
1860 BE
pieter.huybrechts@plantentuinmeise.be 0000-0002-6658-6062 programmer
Omer Van de Kerckhove Meise Botanic Garden RESEARCHER
Nieuwelaan 38 Meise 1860 BE
omer.vandekerckhove@plantentuinmeise.be omer-van-de-kerckhove-2836a7156 contentProvider
Iris Van der Beeten Meise Botanic Garden RESEARCHER
Meise 1860 BE
iris.vanderbeeten@plantentuinmeise.be metadataProvider
Pieter Huybrechts Meise Botanic Garden RESEARCHER
Meise 1860 BE
0000-0002-6658-6062 metadataProvider
2021-05-25 eng Between 2006 and 2012 the ectomycorrhizal Fungi of Meise Botanic Garden were surveyed by monitoring species rich sites. By recording the precise location of the fruiting bodies we also aimed to infer the extent of their subterranean mycelia. Surveys were repeated on the same sites over time to facilitate monitoring of changes in species composition within and between sites. Occurrence GBIF Dataset Type Vocabulary: http://rs.gbif.org/vocabulary/gbif/dataset_type.xml Occurrence GBIF Dataset Type Vocabulary: http://rs.gbif.org/vocabulary/gbif/dataset_type_2015-07-10.xml This work is licensed under a Creative Commons Attribution (CC-BY) 4.0 License. The grounds of Meise Botanic Garden, Meise, Belgium 4.318 4.336 50.934 50.923 2006 2012 ectomycorrhizal Fungi of Meise Botanic Garden form Russula melliolens f. atropurpurea Singer genus Amanita Dill. ex Boehm. genus Armillaria (Fr.) Staude genus Clitocybe (Fr.) Staude genus Cortinarius (Pers.) Gray genus Hebeloma (Fr.) P.Kumm. genus Inocybe (Fr.) Fr. genus Lactarius Pers. genus Psathyrella (Fr.) Quél. genus Russula Pers. species Amanita aspera (Fr.) Gray species Amanita excelsa (Fr.) Bertill. species Russula plumbeobrunnea species Amanita franchetii (Boud.) Fayod species Amanita excelsa species Amanita fulva Fr. species Amanita pantherina (DC.) Krombh. species Amanita phalloides (Vaill. ex Fr.) Link species Amanita rubescens Pers. species Amanita strobiliformis (Paulet ex Vittad.) Bertill. species Armillaria ostoyae (Romagn.) Herink species Boletus aereus Bull. species Boletus appendiculatus Peck species Boletus erythropus Krombh. species Boletus impolitus Fr. species Boletus luridus Viv. species Boletus queletii Schulzer species Boletus radicans Rostk. species Boletus reticulatus Schaeff. species Butyriboletus fuscoroseus (Smotl.) Vizzini & Gelardi species Cantharellus ferruginascens P.D.Orton species Clitopilus prunulus (Scop.) P.Kumm. species Cortinarius decipiens (Pers.) Fr. species Cortinarius elatior Fr. species Cortinarius emollitoides Bidaud, Moënne-Locc. & Reumaux species Cortinarius hinnuleus Fr. species Cortinarius obtusus (Fr.) Fr. species Cortinarius rigens (Pers.) Fr. species Cortinarius subsafranopes Rob.Henry species Cortinarius torvus (Fr.) Fr. species Hebeloma crustuliniforme (Bull.) Quél. species Hebeloma sacchariolens Quél. species Hebeloma sinapizans (Paulet) Gillet species Helvella crispa (Scop.) Fr. species Hortiboletus engelii (Hlaváček) Biketova & Wasser species Hortiboletus rubellus (Krombh.) Simonini, Vizzini & Gelardi species Hydnum repandum L. species Inocybe cookei Bres. species Inocybe corydalina Quél. species Inocybe geophylla (Bull.) P.Kumm. species Inocybe jurana (Pat.) Sacc. species Inocybe maculata Boud. species Inocybe petiginosa (Fr.) Gillet species Inocybe phaeocomis (Pers.) Kuyper species Inocybe tabacina Furrer-Ziogas species Laccaria amethystina Cooke species Laccaria laccata (Scop.) Cooke species Lactarius blennius (Fr.) Fr. species Lactarius circellatus Fr. species Lactarius controversus Pers. species Lactarius decipiens Quél. species Lactarius fluens Boud. species Lactarius fulvissimus Romagn. species Lactarius necator (Bull.) Pers. species Lactarius pallidus Pers. species Lactarius pubescens Fr. species Lactarius quietus (Fr.) Fr. species Lactarius serifluus (DC.) Fr. species Lactarius subdulcis (Pers.) Gray species Lactarius subsericatus Kühner & Romagn. species Leccinum carpini (R.Schulz) M.M.Moser ex D.A.Reid species Leccinum duriusculum (Schulzer ex Kalchbr.) Singer species Leccinum scabrum (Bull.) Gray species Parasola conopilea (Fr.) Örstadius & E.Larss. species Paxillus involutus (Batsch) Fr. species Russula amoenolens Romagn. species Russula atropurpurea (Krombh.) Britzelm. species Russula carpini R.Girard & Heinem. species Russula chloroides (Krombh.) Bres. species Russula clariana R.Heim ex Kuyper & Vuure species Russula cuprea Krombh. species Russula curtipes F.H.Møller & Jul.Schäff. species Russula cyanoxantha (Schaeff.) Fr. species Russula delica Fr. species Russula farinipes Romell species Russula fellea (Fr.) Fr. species Russula foetens Pers. species Russula grisea Fr. species Russula ionochlora Romagn. species Russula langei Bon species Russula laurocerasi Melzer species Russula lutea Vent. species Russula mairei Singer species Russula melliolens Quél. species Russula melzeri Zvára species Russula nigricans Fr. species Russula nitida (Pers.) Fr. species Russula ochroleuca Fr. species Russula olivacea (Schaeff.) Fr. species Russula parazurea Jul.Schäff. species Russula persicina Krombh. species Russula plumbeobrunnea Jurkeit & Schössler species Russula praetervisa Sarnari species Russula pseudointegra Arnould & Goris species Russula puellaris Fr. species Russula puellula Ebbesen, F.H.Møller & Jul.Schäff. species Russula risigallina (Batsch) Sacc. species Russula solaris Ferd. & Winge species Russula velenovskyi Melzer & Zvára species Russula vesca Fr. species Russula veternosa Fr. species Russula virescens (Schaeff.) Fr. species Scleroderma bovista Fr. species Suillus grevillei (Klotzsch) Singer species Tricholoma acerbum (Bull.) Quél. species Tricholoma fulvum (DC.) Bigeard & H.Guill. species Tricholoma inocyboides Corner species Tricholoma saponaceum (Fr.) P.Kumm. species Tricholoma scalpturatum (Fr.) Quél. species Tricholoma sulphureum species Tricholoma ustale (Fr.) P.Kumm. species Tuber aestivum (Wulfen) Spreng. species Xerocomellus porosporus (Imler ex Watling) Šutara species Xerocomellus rubellus (Krombh.) Šutara species Xerocomus chrysenteron (Fr.) Quel. species Xerocomus cisalpinus Simonini, H.Ladurner & Peintner species Xerocomus moravicus (Vaček) Herink species Xerocomus porosporus Imler species Xerocomus pruinatus (Fr. & Hök) Quél. species Xerocomus rubellus (Krombh.) Quél. species Xerocomus subtomentosus (L.) Quél. unkown Pieter Huybrechts Meise Botanic Garden Researcher
BE
pieter.huybrechts@meisebotanicgarden.be 0000-0002-6658-6062
Omer Van de Kerckhove Meise Botanic Garden Researcher
BE
omer.vandekerckhove@plantentuinmeise.be omer-van-de-kerckhove-2836a7156
Sites were surveyed opportunistically between June and the beginning of November each year. When fruiting bodies were particularly abundant a subset of individuals were mapped to represent the larger colony. Fungi observed were hand drawn onto accurate template scale maps (1:100) using fixed landmarks, such as trees, lamp posts, benches and paths. A tape measure was used to locate the fruiting bodies accurately from these locations. These maps were photographed using a medium format digital SLR camera (Pentax 645Z with Pentax FA-645 45-85mm lens at f/7.1) and imported into QGIS as separate layers. Before map project transformation all maps using the same template were digitally aligned to avoid the shifting of common features. This allows for common parameters to be used when transforming maps that are based on the same template. Each map was transformed to Web Mercator projection (EPSG:3857) by using these known ground reference points of which GPS coordinates were already stored in an internal GIS database (QGIS 3.14.15-Pi, GDAL/OGR 3.0.4). In some cases known additional points could be constructed from the drawn maps when drawn features had distances noted from known or projected reference points. Spatial information was added to the TIFF metadata according to the GeoTIFF standard. The algorithms employed were Helmert/Linear transformation when few control points were available, and Thin Plate Spline when more points were available. Each fruiting body marked on a map was added as a point feature in a shapefile layer using the QGIS digitizing tools. Coordinate uncertainty was determined by comparing the given distance measurements on the maps to the distances returned by the measuring tool in QGIS. The resulting spatial data were exported from QGIS and transformed into Darwin Core and are presented in this dataset. Coordinates were transformed to World Geodetic System 84 (EPSG:4326) to facilitate reusability. Starting from 2006 and up to 2012 the fungal communities of Meise Botanic Garden were surveyed by taking inventory of the most species rich sites within the domain. Some sites were added to the survey when interesting observational opportunities presented themselves. A dataset containing these sites was published separately (https://doi.org/10.5281/zenodo.4778742) Fruiting bodies were mapped between June and the beginning of November over several years. Due to time constraints, not all fruiting bodies were mapped when they were very abundant. Mapping the wild ectomycorrhizal fungi of Meise Botanic Garden from 2006 to 2012 Omer Van de Kerckhove omer-van-de-kerckhove-2836a7156 contentProvider Pieter Huybrechts 0000-0002-6658-6062 programmer Iris Van der Beeten metadataProvider Pieter Huybrechts 0000-0002-6658-6062 metadataProvider Botanical Garden This survey of the ectomycorrhizal fungi of Meise Botanic Garden was started by Omer Van de Kerkhove to investigate the changes over time in species composition between some of the most species rich sites of the botanic garden. A primary goal was to inform park and forest management decisions on the impact of different practices on the rich community of ectomycorrhizal fungi present. The sites that were visited are generally highly managed, with regular mowing and leaf removal. A preliminary conclusion of these observations was already published as Van De Kerckhove, O. (2011). Red List ectomycorrhizal fungi and their dependence on park management. Scripta Botanica Belgica, 47(47), 181–191.
2021-01-07T12:42:13.421+00:00 dataset (2021): Mapping the wild ectomycorrhizal fungi of Meise Botanic Garden from 2006 to 2012. v1.5. Meise Botanic Garden. Dataset/Occurrence. http://apm-ipt.br.fgov.be:8080/ipt/resource?r=mycorrhizal_fungi_mbg_2006-2012&v=1.5 Alessio C. L. (1985). Boletus. Fungi Europaei Vol. 2. Libreria editrice Giovanna. Saronno. Basso, M.T. (1999). Lactarius. Fungi Europaei Vol. 7. Mykoflora, Italia. Brandrud T.E., Lindström H., Marklund H., Melot J. & Muskos S. (1989-1998). Cortinarius, Flora Photographica. 1-4 Matfors, Cortinarius HB. Breitenbach J. & Kränzlin F (1991). Champignons de Suisse Tome 3, Bolets et Champignons à lames 1ère partie. Mykologia, Luzern. Breitenbach J. & Kränzlin F (1995). Champignons de Suisse Tome 4, Champignons à lames 2ème partie. Mykologia, Luzern. Breitenbach J. & Kränzlin F (2000). Champignons de Suisse Tome 5, Champignons à lames 3ème partie. Mykologia, Luzern. Breitenbach J. & Kränzlin F (2005). Champignons de Suisse Tome 6, Russulaceae. Mykologia, Luzern. Buyck B. (1990). Determinatiesleutel voor het geslacht Russula aan de hand van veldkenmerken. UGent, België. Dam N. & Kuyper T. W. (2011). Het geslacht Cortinarius in Nederland 10: een voorlopige sleutel. Coolia 54 (4): 189-208. den Bakker H. C. & Noordeloos M. E. (2005). A revision of European species of Leccinum Gray and notes on extralimital species. Persoonia 18 (4): 511-574. Heilmann-Clausen J., Verbeken A. & Vesterholt J. (1998). The genus Lactarius. Fungi of Northern Europe Vol. 2. Svampetryk, Denmark. Knudsen H. & Vesterholt J. Editors (2008). Funga Nordica. Agaricoid, boletoid and cyphelloid genera. Nordsvamp, Denmark. Ladurner H. & Simonini G. (2003). Xerocomus. Fungi Europaei Vol. 6. Edizioni Canduso, Italia. Munnoz J. A. 2005. Boletus s.l. (2005). Fungi Europaei Vol. 2b. Edizioni Canduso, Italia. Noordeloos M. E. (1999). Hoe geraak ik thuis in de Ridderzwammen? Coolia 42 (3): 163-182. Phillips R. (1981). Paddestoelen van West-Europa. Uitgeverij Het Spectrum, Nederland. Riva A. (2003). Tricholoma suppl. Fungi Europaei Vol. 3a. Edizioni Canduso, Italia. Romagnesi H. (1967). Les Russules d’Europe et d’Afrique du Nord. Bordas, Paris. Sarnari M. (1995-2005). Monografia illustrata del genere Russula in Europa. Associazione Micologica Bresadola, Trento. Stangl J. (1989). Die Gattung Inocybe in Bayern. Hoppea 46: 5-388. Van De Kerckhove, O. (2011). Red List ectomycorrhizal fungi and their dependence on park management. Scripta Botanica Belgica, 47(47), 181–191. Walleyn, R., Kesel, A. D., Verbeken, A., & Kerckhove, O. (1998). Mycorrhizal fungi in the Domein van Bouchout. AMK Mededelingen, (1), 14-17. Wieczorek, J., Bloom, D., Guralnick, R., Blum, S., Döring, M., Giovanni, R., ... & Vieglais, D. (2012). Darwin Core: an evolving community-developed biodiversity data standard. PloS one, 7(1), e29715. https://ipt.gbif.org/resource?id=marie-test-dwca/v1.5.xml