Fitness Responses of a Carnivorous Plant in Contrasting Ecological Scenarios

Fitness Responses of a Carnivorous Plant in Contrasting Ecological Scenarios

This paper reports the results of a two-year field experiment on the determinants of fitness responses in Pinguicula vallisneriifolia (Lentibulariaceae), an endemic carnivorous plant of southeastern Spain. For the first time, in this experiment, we have considered irradiance as a factor, in combinat...

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Veröffentlicht in:Ecology (Durham) 1998-07, Vol.79 (5), p.1630-1644
Hauptverfasser: Zamora, Regino, Gómez, José M., Hódar, José A.
Format: Artikel
Sprache:eng
Schlagworte:
Animal and plant ecology
Animal, plant and microbial ecology
Autoecology
Biological and medical sciences
Biomass
Botany
Carnivores
Carnivorous plants
ecological heterogeneity
Ecology
Environmental aspects
field experiment
Flowers & plants
Fundamental and applied biological sciences. Psychology
Growth (Plants)
growth and survival
Habitats
Irradiance
leaf shape
Leaves
Lentibulariaceae
Mediterranean ecosystems
mucilage secretion
Pinguicula vallisneriifolia
Plant communities
Plant growth
Plant Population Biology
Plants
Plants and fungi
prey capture
Reproduction
Secretion
sexual and vegetative reproduction
Wildlife habitats
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Gómez, José M.
Hódar, José A.
description This paper reports the results of a two-year field experiment on the determinants of fitness responses in Pinguicula vallisneriifolia (Lentibulariaceae), an endemic carnivorous plant of southeastern Spain. For the first time, in this experiment, we have considered irradiance as a factor, in combination with animal prey, for an array of natural field conditions. The goal was to determine how carnivory translates to fitness within different radiation regimes. For this, it was necessary to quantify an array of plant responses, such as survival, growth, reproduction (sexual and vegetative reproduction), as well as responses related to carnivory investment (leaf shape and mucilage secretion). Both irradiance and animal food supply proved to be important limiting factors for P. vallisneriifolia under field conditions. Plants clearly decreased in performance from the sunny habitat to the deep-shade one, with plants growing in the least irradiance registering the lowest values for all variables analyzed. The clearest response to prey was the production of axillary buds. Most vegetative and reproductive responses depended heavily on the initial biomass of the plant before the experiments, the largest plants bearing the most leaves, flowers, stolons, and axillary buds. A gradient from less to more mucilage secretion appeared from deep-shade to sunny habitat, and within each habitat from prey exclusion to prey addition levels. Trapped prey stimulated digestive secretions in a positive feedback (the more prey, the more mucilage secretion) under all irradiance conditions. The curled, more secretory leaves of the sunny plants, in comparison with the nearly flattened, less secretory leaves of the deep-shade plants, illustrate the constraints imposed by differing scenarios on the capture of both prey and photons. With nonlimiting water availability, more irradiance and prey results in more survival, growth, and sexual and vegetative reproduction. Nevertheless, it is not usual to find an optimum combination of resources (i.e., irradiance, prey, and water) available in the same microhabitat during the Mediterranean summer. The spatial uncoupling of limiting resources progressively increased towards the extremes of the irradiance gradient (sunny and deepshade habitats, respectively), and therefore the dual photosynthetic and carnivore functions of P. vallisneriifolia leaves were not equally efficient in all habitats. These opposing resource gradients determined all vegetativ
doi_str_mv 10.1890/0012-9658(1998)079[1630:FROACP]2.0.CO;2
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For the first time, in this experiment, we have considered irradiance as a factor, in combination with animal prey, for an array of natural field conditions. The goal was to determine how carnivory translates to fitness within different radiation regimes. For this, it was necessary to quantify an array of plant responses, such as survival, growth, reproduction (sexual and vegetative reproduction), as well as responses related to carnivory investment (leaf shape and mucilage secretion). Both irradiance and animal food supply proved to be important limiting factors for P. vallisneriifolia under field conditions. Plants clearly decreased in performance from the sunny habitat to the deep-shade one, with plants growing in the least irradiance registering the lowest values for all variables analyzed. The clearest response to prey was the production of axillary buds. Most vegetative and reproductive responses depended heavily on the initial biomass of the plant before the experiments, the largest plants bearing the most leaves, flowers, stolons, and axillary buds. A gradient from less to more mucilage secretion appeared from deep-shade to sunny habitat, and within each habitat from prey exclusion to prey addition levels. Trapped prey stimulated digestive secretions in a positive feedback (the more prey, the more mucilage secretion) under all irradiance conditions. The curled, more secretory leaves of the sunny plants, in comparison with the nearly flattened, less secretory leaves of the deep-shade plants, illustrate the constraints imposed by differing scenarios on the capture of both prey and photons. With nonlimiting water availability, more irradiance and prey results in more survival, growth, and sexual and vegetative reproduction. Nevertheless, it is not usual to find an optimum combination of resources (i.e., irradiance, prey, and water) available in the same microhabitat during the Mediterranean summer. The spatial uncoupling of limiting resources progressively increased towards the extremes of the irradiance gradient (sunny and deepshade habitats, respectively), and therefore the dual photosynthetic and carnivore functions of P. vallisneriifolia leaves were not equally efficient in all habitats. These opposing resource gradients determined all vegetative and reproductive plant responses. 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For the first time, in this experiment, we have considered irradiance as a factor, in combination with animal prey, for an array of natural field conditions. The goal was to determine how carnivory translates to fitness within different radiation regimes. For this, it was necessary to quantify an array of plant responses, such as survival, growth, reproduction (sexual and vegetative reproduction), as well as responses related to carnivory investment (leaf shape and mucilage secretion). Both irradiance and animal food supply proved to be important limiting factors for P. vallisneriifolia under field conditions. Plants clearly decreased in performance from the sunny habitat to the deep-shade one, with plants growing in the least irradiance registering the lowest values for all variables analyzed. The clearest response to prey was the production of axillary buds. Most vegetative and reproductive responses depended heavily on the initial biomass of the plant before the experiments, the largest plants bearing the most leaves, flowers, stolons, and axillary buds. A gradient from less to more mucilage secretion appeared from deep-shade to sunny habitat, and within each habitat from prey exclusion to prey addition levels. Trapped prey stimulated digestive secretions in a positive feedback (the more prey, the more mucilage secretion) under all irradiance conditions. The curled, more secretory leaves of the sunny plants, in comparison with the nearly flattened, less secretory leaves of the deep-shade plants, illustrate the constraints imposed by differing scenarios on the capture of both prey and photons. With nonlimiting water availability, more irradiance and prey results in more survival, growth, and sexual and vegetative reproduction. 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The perennial character of this endemic plant, together with its vegetative form of propagation, allows the possibility of resisting extinction even in the absence of seedling recruitment or when vegetative growth is strongly limited.</description><subject>Animal and plant ecology</subject><subject>Animal, plant and microbial ecology</subject><subject>Autoecology</subject><subject>Biological and medical sciences</subject><subject>Biomass</subject><subject>Botany</subject><subject>Carnivores</subject><subject>Carnivorous plants</subject><subject>ecological heterogeneity</subject><subject>Ecology</subject><subject>Environmental aspects</subject><subject>field experiment</subject><subject>Flowers &amp; plants</subject><subject>Fundamental and applied biological sciences. 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For the first time, in this experiment, we have considered irradiance as a factor, in combination with animal prey, for an array of natural field conditions. The goal was to determine how carnivory translates to fitness within different radiation regimes. For this, it was necessary to quantify an array of plant responses, such as survival, growth, reproduction (sexual and vegetative reproduction), as well as responses related to carnivory investment (leaf shape and mucilage secretion). Both irradiance and animal food supply proved to be important limiting factors for P. vallisneriifolia under field conditions. Plants clearly decreased in performance from the sunny habitat to the deep-shade one, with plants growing in the least irradiance registering the lowest values for all variables analyzed. The clearest response to prey was the production of axillary buds. Most vegetative and reproductive responses depended heavily on the initial biomass of the plant before the experiments, the largest plants bearing the most leaves, flowers, stolons, and axillary buds. A gradient from less to more mucilage secretion appeared from deep-shade to sunny habitat, and within each habitat from prey exclusion to prey addition levels. Trapped prey stimulated digestive secretions in a positive feedback (the more prey, the more mucilage secretion) under all irradiance conditions. The curled, more secretory leaves of the sunny plants, in comparison with the nearly flattened, less secretory leaves of the deep-shade plants, illustrate the constraints imposed by differing scenarios on the capture of both prey and photons. With nonlimiting water availability, more irradiance and prey results in more survival, growth, and sexual and vegetative reproduction. Nevertheless, it is not usual to find an optimum combination of resources (i.e., irradiance, prey, and water) available in the same microhabitat during the Mediterranean summer. The spatial uncoupling of limiting resources progressively increased towards the extremes of the irradiance gradient (sunny and deepshade habitats, respectively), and therefore the dual photosynthetic and carnivore functions of P. vallisneriifolia leaves were not equally efficient in all habitats. These opposing resource gradients determined all vegetative and reproductive plant responses. The perennial character of this endemic plant, together with its vegetative form of propagation, allows the possibility of resisting extinction even in the absence of seedling recruitment or when vegetative growth is strongly limited.</abstract><cop>Washington, DC</cop><pub>Ecological Society of America</pub><doi>10.1890/0012-9658(1998)079[1630:FROACP]2.0.CO;2</doi><tpages>15</tpages></addata></record>
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source Wiley Online Library Journals Frontfile Complete; Jstor Complete Legacy
subjects Animal and plant ecology
Animal, plant and microbial ecology
Autoecology
Biological and medical sciences
Biomass
Botany
Carnivores
Carnivorous plants
ecological heterogeneity
Ecology
Environmental aspects
field experiment
Flowers & plants
Fundamental and applied biological sciences. Psychology
Growth (Plants)
growth and survival
Habitats
Irradiance
leaf shape
Leaves
Lentibulariaceae
Mediterranean ecosystems
mucilage secretion
Pinguicula vallisneriifolia
Plant communities
Plant growth
Plant Population Biology
Plants
Plants and fungi
prey capture
Reproduction
Secretion
sexual and vegetative reproduction
Wildlife habitats
title Fitness Responses of a Carnivorous Plant in Contrasting Ecological Scenarios
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