Results 21 to 30 of about 1,432 (216)

Flora of Maranhão, Northeastern Brazil: Droseraceae

open access: yesRevista Brasileira de Geografia Física
Drosera é um gênero cosmopolita de plantas carnívoras com cerca de 250 espécies e centros de diversidade na Austrália, Brasil e África do Sul. É caraterístico de paisagens abertas, ensolaradas e solos oligotróficos sazonalmente úmidos. No Brasil, ocorrem
E. A. Guarconi   +3 more
semanticscholar   +2 more sources

Flora da Bahia – Droseraceae Salisb.

open access: yesSITIENTIBUS série Ciências Biológicas, 2007
The present study is part of the project “Flora of Bahia”. Droseraceae is represented in Bahia state by the genus Drosera, with five species: Drosera chrysolepis Taub. D. communis A.St.-Hil., D. intermedia Dreves & Hayne, D. montana A.St.-Hil., D. sessilifolia A.St.-Hil. Description and illustrations, as well as comments on geographic distribution,
Silva, Tânia Regina da
openaire   +3 more sources

Droseraceae Salisb., Parad. Lond.

open access: yes, 2011
288. Droseraceae Salisb., Parad. Lond. 2: ad t. 95. 1 Feb 1808, nom. cons. Aldrovandaceae Nakai, J. Jap. Bot. 24: 10. Dec 1949 Dionaeaceae Raf., Fl. Tellur. 3: 35.
Reveal, James L.   +3 more
openaire   +3 more sources

Historia natural y presencia de la "planta insectívora" Drosera capillaris (Droseraceae) en Costa Rica

open access: yesRevista de Biología Tropical, 1998
The family Droseraceae is reported for the first time from Costa Rica represented by Drosera capillaris Poiret. The species grows in vernal pools of hyperhumid savannahs of the Parque Nacional Amistad, Puntarenas Province.
Luis D. Gómez P, Jorge Gómez-Laurito
doaj   +1 more source

Plastid Genome Evolution Across the Roridulaceae-Sarraceniaceae Clade (Ericales) in Relation to Carnivorous Strategies. [PDF]

open access: yesEcol Evol
The Roridulaceae–Sarraceniaceae clade exhibits strikingly divergent carnivorous strategies, providing a framework to examine how trophic shifts influence plastid genome evolution. Comparative plastome analyses reveal recurrent ndh gene disruption across species, while Roridula gorgonias shows pronounced genomic restructuring, including elevated ...
Chang S, Wang P, Han W, Yu B, Li C.
europepmc   +2 more sources

Plantas Insectívoras, II: Droseraceas de Colombia

open access: yesCaldasia, 1965
Las plantas insectívoras colombianas, en el grupo de las Fanerógamas, están representadas solamente por las familias Lentibulariaceae y Droseraceae. La primera fue considerada en el numero 41 (1964) de esta revista.
Fernández Pérez Alvaro
doaj   +2 more sources

Venus flytraps' metabolome analysis discloses the metabolic fate of prey animal foodstock. [PDF]

open access: yesPlant J
SUMMARY Carnivorous plants such as the Venus flytrap Dionaea muscipula survive in nutrient‐poor habitats by attracting and consuming animals. Upon deflection of the touch‐sensitive trigger hairs, the trap closes instantly. Panicking prey repeatedly collides with trigger hairs, which activate the endocrine system: mechano‐ and chemosensors translate the
Kreuzer I   +4 more
europepmc   +2 more sources

Origin of subgenomes in the circumboreal, allopolyploid, carnivorous plant Drosera anglica. [PDF]

open access: yesAm J Bot
Abstract Premise The parentage of the widespread allopolyploid Drosera anglica, a member of the carnivorous sundew genus, remains uncertain despite over 100 years of morphological, cytological, and, more recently, molecular study. Methods Using transcriptomic and genomic data from 12 species of Drosera sect. Drosera, including four D.
Mohn RA, Yang Y.
europepmc   +2 more sources

How the diversity in digestion in carnivorous plants may have evolved. [PDF]

open access: yesNew Phytol
Summary Carnivorous plants secrete digestive enzymes for prey degradation. Although carnivorous plants have a polyphyletic origin and evolved several times independently, they surprisingly co‐opted similar digestive enzymes during convergent evolution.
Pavlovič A.
europepmc   +2 more sources

The power of ionic movements in plants. [PDF]

open access: yesNew Phytol
Summary The movement of ion‐driven electrogenic events known as plant action potentials in the Venus flytrap Dionaea muscipula has first been recognized in Darwin's time. Besides electrophysiological techniques making use of current‐ and voltage‐recording electrodes, today an ever‐growing spectrum of tools has become available, that report online ...
Hedrich R, Kreuzer I.
europepmc   +2 more sources

Home - About - Disclaimer - Privacy