Monstera adansonii var. klotzschiana (Schott) Madison

  • Filed As

    Araceae
    Monstera adansonii var. klotzschiana (Schott) Madison

  • Collector(s)

    D. C. Daly 9784 with D. G. Silva, L. Lima, A. R. S. Oliveira & C. Ehringhaus, 25 Mar 1998

  • Location

    Brazil. Acre. Assis Brasil Mun. Basin of Rio Purus, upper Rio Acre, left bank. Colônia Odessa Lourenço, downstream from Igarapé Sâo Lourenço.

  • Habitat

    Forest on terra firme, strongly undulating terrain, formerly dominated by Guadua bamboo that died 8 years ago. Canopy open, understory closed (incl. vines and regenerating Guadua). Rare.

  • Description

    root-climbing epiphyte. Root-climbing epiphyte, spathe fleshy, white, spadex white. Phenology of specimen: Flower.

  • Identifiers

    NY Barcode: 630754

    Occurrence ID: ad3b1649-87c0-438a-9452-fbf419e88225

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    Send comments on this specimen record

  • Region

    South America

  • Country

    Brazil

  • State/Province

    Acre

  • County/Municipio

    Assis Brasil Mun.

  • Locality

    Basin of Rio Purus, upper Rio Acre, left bank. Colônia Odessa Lourenço, downstream from Igarapé Sâo Lourenço.

  • Coordinates

    -10.9253, -69.8079

  • Georeferencing Method

    Corrected label coordinates. Coordinates are approximate

  • Geodetic Datum

    WGS84

  • Distribution

    Map all specimens of this taxon

TROPlQfy.g
Flora of Acre, Brazil ^s/ccg*
The New York Botanical Garden 96
Universidade Federal do Acre
No. 9784
Araceae
Monstera	Be Well", voa
' -Vvn
Brazil. Acre, Mun. Assis Brasil: Basin of Rio Punís,
upper Rio Acre, left bank. Colonia Odessa Lonrengo,
downstream from Igarapé Sao Lourengo. 10°55’35"S,
69°48’32"W. Forest on terra fírme, strongly undulating
terrain, formerly dominated by Guadua bamboo that died 8
years ago. Canopy open, under story closed (incl. vines and
regenerating Guadua).
BOTANICAL
NEW YORK BOTANICAL GARDEN
00630754
Root-climbing epiphyte, spathe fleshy, white, spadex
white. Rare.
D. C. Daly, D. G. Silva, L. Lima,
A. R. S. Oliveira & C. Ehringhaus
25 Mar 1998
Supported by the National Science Foundation
00630754