PDD 34791
– Clitocybula (Singer) Singer ex Métrod 1952
Data provider:
New Zealand Fungarium - Te Kohinga Hekaheka o Aotearoa
Barcode:
PDD 34791
Specimen type:
Packet
Database record added:
11 April 2011
Database record updated:
24 February 2023
Components
Primary component
Active identification
Determined name:
Clitocybula JAC12352
Determiner:
J.A. Cooper
Identification date:
2017-02 (Verbatim: Feb. 2017)
Preferred name:
Clitocybula (Singer) Singer ex Métrod 1952
Division:
Basidiomycota
Class:
Agaricomycetes
Order:
Agaricales
Family:
Porotheleaceae
Identification type:
Determination
Substrate:
wood
Other identifications
Identification
Determined name:
Trogia sp.
Determiner:
Identification date:
Preferred name:
Trogia Fr. 1836
Active:
no
Identification type:
Determination
Collection events
Primary collection event
Collection event type:
Unknown
Standard locality
Location:
Waitakere Ranges, Clark Bush Track
Georeferences:
Latitude and Longitude (WGS84):
-36.9403 174.65
Verbatim locality:
Waitakere Ranges, Clark Bush Track
Verbatim collector:
J.M. Dingley, W.S.M. Versluys
Standardised collector:
Joan M. Dingley; W. S. M. Versluys
Verbatim date:
1976/05/12
Start date:
1976-05-12
Country:
New Zealand
New Zealand Area Codes:
Auckland
Native lands:
Ngāti Tamaoho
Ngāti Tamaterā
Ngāti Whātua
Ngāti Whātua o Ōrākei
Te Ākitai Waiohua
Te Kawerau a Maki
Georeferences:
New Zealand Map Grid:
2656890E 6472340N (WGS84 -36.939072 174.644858)
Specimen notes
Public Note:
Notes in Joan's hand: Trogia anthidepas (or T. subdistans) variety of, on bark of living trees of Leptospermum ericoides. Pileus 1-5cm diam. convex, umbonate, stritate fuscous brown also cream fawn striate fibrillose. Stem 2cm x 1-2mm diam. follow. Lamellae decurrent, widely spaced, sometimes bifurcate. 2 series with venous folds. Cheilocystidia clavate. Spores 5 x 5-7um subglobose, very [?] ... [JAC] The spores are amyloid 8 x 5um and not subglobose. Cheilos not observed.Same as PDD63418 and 96442 but larger. This is not T. anthidepas or T. subdistans because they have inamyloid spores.
J.A. Cooper, Feb. 2017