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
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Van De Kerckhove, O. (2011). Red List ectomycorrhizal fungi and their dependence on park management. Scripta Botanica Belgica, 47(47), 181–191.
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https://ipt.gbif.org/resource?id=marie-test-dwca/v1.5.xml