Utricularia carnivory revisited: plants supply photosynthetic carbon to traps.
@article{Sirov2010UtriculariaCR,
title={Utricularia carnivory revisited: plants supply photosynthetic carbon to traps.},
author={Dagmara Sirov{\'a} and Jakub Borovec and Hana {\vS}antrů{\vc}kov{\'a} and Jiř{\'i} {\vS}antrů{\vc}ek and Jaroslav Vrba and Lubom{\'i}r Adamec},
journal={Journal of experimental botany},
year={2010},
volume={61 1},
pages={
99-103
}
}The rootless, aquatic Utricularia species belong to the largest and most cosmopolitan carnivorous plant genus. Populations of Utricularia plants are an important component of many standing, nutrient-poor, and humic waters. Carbon (C) allocation is an aspect of Utricularia's ecophysiology that has not been studied previously and there is considerable uncertainty about the functional and ecological benefit of the trap-associated microbial community and the potential role played by C exudation in…
44 Citations
Dinitrogen fixation associated with shoots of aquatic carnivorous plants: is it ecologically important?
- Environmental ScienceAnnals of botany
- 2014
It is hypothesized that the reason for limited N2 fixation in aquatic Utricularia, despite the large potential capacity, is the high concentration of NH4-N (2·0-4·3 mg L(-1)) in the trap fluid.
Ecological implications of organic carbon dynamics in the traps of aquatic carnivorous Utricularia plants.
- Environmental ScienceFunctional plant biology : FPB
- 2011
It is suggested that organic carbon dynamics within the traps, involving both the plant and associated microbial assemblages, underlies the acquisition of key nutrients by Utricularia and may help explain the evolutionary success of the genus.
The carnivorous bladderwort (Utricularia, Lentibulariaceae): a system inflates.
- Environmental ScienceJournal of experimental botany
- 2010
It is argued that Utricularia and its sister genus Genlisea are prime candidates for further research on the complexities of plant physiology associated with carnivory, metagenomic surveys of trap microbial communities, novel plant nitrogen/nutrient utilization pathways, the ecology of prey attraction, whole-plant and trap comparative development, and, finally, evolution of the minimal angiosperm genome.
Carnivorous Plant Newsletter v41 n3 September 2012
- Environmental Science
- 2011
Aquatic carnivorous plants comprise the species Aldrovanda vesiculosa L. (Droseraceae) and about 50 species of the genus Utricularia L. (Lentibulariaceae; Taylor 1989). Aquatic Utricularia species…
Note Light as a factor affecting the concentration of simple organics in the traps of aquatic carnivorous Utricularia species
- Environmental Science
- 2012
The concentrations of organic compounds in the trap fluid of aquatic Utricularia are species specific, subject to rapid turnover and depend significantly on various endogenous (trap age) or exogenous factors (water chemistry, irradiance).
A comparison of photosynthetic and respiration rates in six aquatic carnivorous Utricularia species differing in morphology
- Environmental Science
- 2013
The smallest but fastest
- Environmental SciencePlant signaling & behavior
- 2011
A new concept on the role of the commensal community for the plants is presented and the nature of the interactions between the traps and the mutualistic microorganisms living inside as commensals are considered.
Different reutilization of mineral nutrients in senescent leaves of aquatic and terrestrial carnivorous Utricularia species
- Environmental Science
- 2014
Capture of algae promotes growth and propagation in aquatic Utricularia.
- Environmental ScienceAnnals of botany
- 2015
The mass capture of immotile particles confirms the ecological importance of autonomous firing of the traps, andrelations with chemical parameters indicate that Utricularia benefits from nutrient-rich waters by uptake of inorganic nutrients from the water, by the production of more traps per unit of shoot length, and by the capture of more prey particles per trap, as nutrient- rich waters harbour more prey organisms.
Hunters or farmers? Microbiome characteristics help elucidate the diet composition in an aquatic carnivorous plant
- Medicine, BiologyMicrobiome
- 2018
It is concluded that Utricularia traps can, in terms of their ecophysiological function, be compared to microbial cultivators or farms, which center around complex microbial consortia acting synergistically to convert complex organic matter into a source of utilizable nutrients for the plants.
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