Search results for "Coexistence theory"

showing 9 items of 9 documents

Morphological Similarity and Ecological Overlap in Two Rotifer Species

2013

Co-occurrence of cryptic species raises theoretically relevant questions regarding their coexistence and ecological similarity. Given their great morphological similitude and close phylogenetic relationship (i.e., niche retention), these species will have similar ecological requirements and are expected to have strong competitive interactions. This raises the problem of finding the mechanisms that may explain the coexistence of cryptic species and challenges the conventional view of coexistence based on niche differentiation. The cryptic species complex of the rotifer Brachionus plicatilis is an excellent model to study these questions and to test hypotheses regarding ecological differentia…

Species complexEcological MetricsScienceNicheRotiferaLimnetic EcologyMorphology (biology)CopepodaSpecies SpecificityLimiting similarityAnimalsBiologyCommunity StructureEcosystemFreshwater EcologyEcological nicheCoexistence theoryMultidisciplinaryEcologybiologyEcologyQRNiche differentiationSpecies DiversityBiodiversityAutecologyBrachionusbiology.organism_classificationTrophic InteractionsSpecies InteractionsCommunity EcologyPredatory BehaviorMedicinePopulation EcologyResearch ArticlePLoS ONE
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Coexistence and resource competition.

2000

How large numbers of species coexist on a seemingly limited number of different resources is a classic problem in ecology1, and attempts have been made to solve it experimentally. But we are not convinced that Huisman and Weissing's2 proposal to add non-stationary dynamics in species abundance to the list of possible explanations offers any new insight into this biodiversity enigma.

0106 biological sciencesCoexistence theoryCompetitive BehaviorMultidisciplinaryResource (biology)EcologyEcologyNatural resource economicsEcology (disciplines)Biodiversity15. Life on landBiology010603 evolutionary biology01 natural sciencesModels Biological010601 ecologyCompetition (economics)AnimalsEcosystemComputer SimulationBiological sciencesRelative species abundanceEcosystemNature
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Resource competition between sympatric sibling rotifer species

2001

Mechanisms underlying competitive interactions are important in understanding the structure of planktonic communities, particularly the coexistence of similar species. Here we present experimental results of exploitative competition among three sympatric sibling species of the Brachionus plicatilis complex for two differently-sized species of food microalgae. These three rotifer species are to be found in seasonal succession in brackish ponds on the Spanish Mediterranean coast; they can, however, co-occur for long periods. The functional and numerical responses of the three Brachionus species to both food microalgae, although similar, differed. Neither rotifer population growth nor grazing …

Ecological nicheCoexistence theorySpecies complexEcologymedia_common.quotation_subjectNiche differentiationInterspecific competitionAquatic ScienceBiologyStorage effectOceanographyCompetition (biology)Character displacementmedia_commonLimnology and Oceanography
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Dietary and Temporal Niche Differentiation in Tropical Ants-Can They Explain Local Ant Coexistence?

2014

How species with similar ecological requirements avoid competitive exclusion remains contentious, especially in the species-rich tropics. Niche differentiation has been proposed as a major mechanism for species coexistence. However, different niche dimensions must be studied simultaneously to assess their combined effects on diversity and composition of a community. In most terrestrial ecosystems, ants are among the most abundant and ubiquitous animals. Since they display direct, aggressive competition and often competitively displace subordinate species from resources, niche differentiation may be especially relevant among ants. We studied temporal and trophic niche differentiation in a gr…

Coexistence theoryEcological nicheEcologyEcological releasemedia_common.quotation_subjectForagingNicheNiche differentiationfood and beveragesNiche segregationBiologyCompetition (biology)Ecology Evolution Behavior and Systematicsmedia_commonBiotropica
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Life-history variation, environmental fluctuations and competition in ecologically similar species: modeling the case of rotifers

2015

Competition for resources can lead to species exclusion. However, this exclusion may be avoided if species show differential adaptation to physical environment. Empirical studies on competition are difficult when species are phylogenetically close and have complex life cycles. This is the case of B. plicatilis and B. manjavacas, two cryptic rotifer species differing in their salinity niches and in life-history traits related to sex and diapause. These differences have been suggested to promote the stable co-occurrence observed in natural populations of these species. However, in a previous empirical study, the outcome of competition between both species was always exclusion. Here, we theore…

Ecological nicheCoexistence theoryEcologyEcologymedia_common.quotation_subjectGrowing seasonRotiferAquatic ScienceBiologyDiapausebiology.organism_classificationCompetition (biology)SalinityAdaptationEcology Evolution Behavior and Systematicsmedia_commonJournal of Plankton Research
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Life-cycle switching and coexistence of species with no niche differentiation.

2011

The increasing evidence of coexistence of cryptic species with no recognized niche differentiation has called attention to mechanisms reducing competition that are not based on niche-differentiation. Only sex-based mechanisms have been shown to create the negative feedback needed for stable coexistence of competitors with completely overlapping niches. Here we show that density-dependent sexual and diapause investment can mediate coexistence of facultative sexual species having identical niches. We modelled the dynamics of two competing cyclical parthenogens with species-specific density-dependent sexual and diapause investment and either equal or different competitive abilities. We show th…

0106 biological sciencesSpecies complexEcological Metricsmedia_common.quotation_subjectlcsh:MedicineMarine and Aquatic SciencesMarine BiologyDiapauseBiology010603 evolutionary biology01 natural sciencesCompetition (biology)Sexual Behavior AnimalTheoretical EcologyAnimalslcsh:ScienceBiologymedia_commonCoexistence theoryEcological nicheFreshwater EcologyFacultativeMultidisciplinaryEcologyPopulation BiologyEcology010604 marine biology & hydrobiologylcsh:RNiche differentiationSpecies DiversityBiodiversityModels TheoreticalSexual reproductionSpecies InteractionsCommunity EcologyEarth Scienceslcsh:QPopulation EcologyResearch ArticlePloS one
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Geographic variability of ecological niches of plant species: are competition and stress relevant?

2002

A species’ niche position may differ strongly between geographic regions, for instance due to the effect of competitors or ecophysiological stress. However, it is unclear whether such strong geographic niche variation is the rule or the exception. We compared the niche positions of plant species between central England and eastern central Europe (as available from the literature), using phylogenetically independent contrasts. We found that most species occupied similar niche positions in both regions. More importantly, we found that niche variation was not higher in species susceptible to competitive displacement. Nor was niche variation higher in species that reach the edge of their range …

Ecological nicheCoexistence theoryEcological releaseEcologyRange (biology)media_common.quotation_subjectNicheNiche differentiationNiche segregationBiologyEcology Evolution Behavior and SystematicsCompetition (biology)media_common
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Long-term competitive dynamics of two cryptic rotifer species: diapause and fluctuating conditions.

2015

Life-history traits may have an important role in promoting species coexistence. However, the complexity of certain life cycles makes it difficult to draw conclusions about the conditions for coexistence or exclusion based on the study of short-term competitive dynamics. Brachionus plicatilis and B. manjavacasare two cryptic rotifer species co-occurring in many lakes on the Iberian Peninsula. They have a complex life cycle in which cyclical parthenogenesis occurs with diapausing stages being the result of sexual reproduction. B. plicatilis and B. manjavacasare identical in morphology and size, their biotic niches are broadly overlapping, and they have similar competitive abilities. However,…

Sciencemedia_common.quotation_subjectRotiferaRotiferDiapauseCompetition (biology)AnimalsEcosystemmedia_commonCoexistence theoryEcological nicheLife Cycle StagesMultidisciplinarybiologyEcologyReproductionQRMetamorphosis BiologicalBrachionusbiology.organism_classificationSexual reproductionSalinityLakesPhenotypeMedicineResearch ArticlePloS one
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2016

Ecological communities are structured by competitive, predatory, mutualistic and parasitic interactions combined with chance events. Separating deterministic from stochastic processes is possible, but finding statistical evidence for specific biological interactions is challenging. We attempt to solve this problem for ant communities nesting in epiphytic bird’s nest ferns (Asplenium nidus) in Borneo’s lowland rainforest. By recording the frequencies with which each and every single ant species occurred together, we were able to test statistically for patterns associated with interspecific competition. We found evidence for competition, but the resulting co-occurrence pattern was the opposit…

0106 biological sciencesAssembly rulesCoexistence theorybiologyEcology010604 marine biology & hydrobiologymedia_common.quotation_subjectInterspecific competition15. Life on landStorage effectbiology.organism_classification010603 evolutionary biology01 natural sciencesCompetition (biology)PonerinaeLimiting similarityNestEcology Evolution Behavior and SystematicsNature and Landscape Conservationmedia_commonActa Oecologica
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