Intercropping with shrub species that display a 'steady-state' flowering phenology as a strategy for biodiversity conservation in tropical agroecosystems

Animal species in the Neotropics have evolved under a lower spatiotemporal patchiness of food resources compared to the other tropical regions. Although plant species with a steady-state flowering/fruiting phenology are rare, they provide predictable food resources and therefore may play a pivotal r...

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Veröffentlicht in:	PloS one 2014-03, Vol.9 (3), p.e90510-e90510
1. Verfasser:	Peters, Valerie E
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural ecology Agricultural ecosystems Agricultural practices Agriculture Agroecosystems Agroforestry Animal species Animals Arthropods Bees Beneficial arthropods Biodiversity Biodiversity conservation Biological evolution Biology Birds Butterflies Butterflies & moths Coffea - growth & development Coffee Community structure Comparative analysis Conservation Conservation of Natural Resources Costa Rica Cropping systems Ecosystem management Ecosystem services Equilibrium flow Flowering Flowers Flowers - growth & development Food plants Food resources Fruits Hamelia - growth & development Hamelia patens Hummingbirds Intercropping Phenology Plant diversity Plant species Pollination Population Growth Rainforest Restoration Rubiaceae Seasons Species diversity Species richness Steady state Tropical environment Tropical environments Wasps Wildlife conservation
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description	Animal species in the Neotropics have evolved under a lower spatiotemporal patchiness of food resources compared to the other tropical regions. Although plant species with a steady-state flowering/fruiting phenology are rare, they provide predictable food resources and therefore may play a pivotal role in animal community structure and diversity. I experimentally planted a supplemental patch of a shrub species with a steady-state flowering/fruiting phenology, Hamelia patens Jacq., into coffee agroforests to evaluate the contribution of this unique phenology to the structure and diversity of the flower-visiting community. After accounting for the higher abundance of captured animals in the coffee agroforests with the supplemental floral resources, species richness was 21% higher overall in the flower-visiting community in these agroforests compared to control agroforests. Coffee agroforests with the steady-state supplemental floral patch also had 31% more butterfly species, 29% more hummingbird species, 65% more wasps and 85% more bees than control coffee agroforests. The experimental treatment, together with elevation, explained 57% of the variation in community structure of the flower-visiting community. The identification of plant species that can support a high number of animal species, including important ecosystem service providers, is becoming increasingly important for restoration and conservation applications. Throughout the Neotropics plant species with a steady-state flowering/fruiting phenology can be found in all aseasonal forests and thus could be widely tested and suitable species used throughout the tropics to manage for biodiversity and potentially ecosystem services involving beneficial arthropods.
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subjects	Agricultural ecology Agricultural ecosystems Agricultural practices Agriculture Agroecosystems Agroforestry Animal species Animals Arthropods Bees Beneficial arthropods Biodiversity Biodiversity conservation Biological evolution Biology Birds Butterflies Butterflies & moths Coffea - growth & development Coffee Community structure Comparative analysis Conservation Conservation of Natural Resources Costa Rica Cropping systems Ecosystem management Ecosystem services Equilibrium flow Flowering Flowers Flowers - growth & development Food plants Food resources Fruits Hamelia - growth & development Hamelia patens Hummingbirds Intercropping Phenology Plant diversity Plant species Pollination Population Growth Rainforest Restoration Rubiaceae Seasons Species diversity Species richness Steady state Tropical environment Tropical environments Wasps Wildlife conservation
title	Intercropping with shrub species that display a 'steady-state' flowering phenology as a strategy for biodiversity conservation in tropical agroecosystems
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