The effect of range overlap on ecological niche divergence depends on spatial scale in monkeyflowers

Understanding how speciation relates to ecological divergence has long fascinated biologists. It is assumed that ecological divergence is essential to sympatric speciation, as a mechanism to avoid competition and eventually lead to reproductive isolation, while divergence in allopatry is not necessarily associated with niche differentiation. The impact of the spatial context of divergence on the evolutionary rates of abiotic dimensions of the ecological niche has rarely been explored for an entire clade. Here, we compare the magnitude of climatic niche shifts between sympatric versus allopatric divergence of lineages in butterflies. By combining next-generation sequencing, parametric biogeography and ecological niche analyses applied to a genus-wide phylogeny of Palaearctic Pyrgus butterflies, we compare evolutionary rates along eight climatic dimensions across sister lineages that diverged in large-scale sympatry versus allopatry. In order to examine the possible effects of the spatial scale at which sympatry is defined, we considered three sets of biogeographic assignments, ranging from narrow to broad definition. Our findings suggest higher rates of niche evolution along all climatic dimensions for sister lineages that diverge in sympatry, when using a narrow delineation of biogeographic areas. This result contrasts with significantly lower rates of climatic niche evolution found in cases of allopatric speciation, despite the biogeographic regions defined here being characterized by significantly different climates. Higher rates in allopatry are retrieved when biogeographic areas are too widely defined—in such a case allopatric events may be recorded as sympatric. Our results reveal the macro-evolutionary significance of abiotic niche differentiation involved in speciation processes within biogeographic regions, and illustrate the importance of the spatial scale chosen to define areas when applying parametric biogeographic analyses.

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Ecological niche differentiation in Chiroxiphia and Antilophia manakins (Aves: Pipridae)

PLoS ONE ◽

10.1371/journal.pone.0243760 ◽

2021 ◽

Vol 16 (1) ◽

pp. e0243760

Author(s):

Mariana Villegas ◽

Bette A. Loiselle ◽

Rebecca T. Kimball ◽

John G. Blake

Keyword(s):

Ecological Niche ◽

Niche Overlap ◽

Niche Differentiation ◽

Ecological Niches ◽

Niche Conservatism ◽

Phylogenetic Distance ◽

Evolutionary Time ◽

Distribution Models ◽

Ecological Differentiation ◽

Niche Divergence

Species distribution models are useful for identifying the ecological characteristics that may limit a species’ geographic range and for inferring patterns of speciation. Here, we test a hypothesis of niche conservatism across evolutionary time in a group of manakins (Aves: Pipridae), with a focus on Chiroxiphia boliviana, and examine the degree of ecological differentiation with other Chiroxiphia and Antilophia manakins. We tested whether allopatric sister species were more or less similar in environmental space than expected given their phylogenetic distances, which would suggest, respectively, ecological niche conservatism over time or ecologically mediated selection (i.e. niche divergence). We modeled the distribution of nine manakin taxa (C. boliviana, C. caudata, C. lanceolata, C. linearis, C. p. pareola, C. p. regina, C. p. napensis, Antilophia galeata and A. bokermanni) using Maxent. We first performed models for each taxon and compared them. To test our hypothesis we followed three approaches: (1) we tested whether C. boliviana could predict the distribution of the other manakin taxa and vice versa; (2) we compared the ecological niches by using metrics of niche overlap, niche equivalency and niche similarity; and (3) lastly, we tested whether niche differentiation corresponded to phylogenetic distances calculated from two recent phylogenies. All models had high training and test AUC values. Mean AUC ratios were high (>0.8) for most taxa, indicating performance better than random. Results suggested niche conservatism, and high niche overlap and equivalency between C. boliviana and C. caudata, but we found very low values between C. boliviana and the rest of the taxa. We found a negative, but not significant, relationship between niche overlap and phylogenetic distance, suggesting an increase in ecological differentiation and niche divergence over evolutionary time. Overall, we give some insights into the evolution of C. boliviana, proposing that ecological selection may have influenced its speciation.

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Genomic basis of ecological niche divergence among cryptic sister species of non-biting midges

BMC Genomics ◽

10.1186/1471-2164-14-384 ◽

2013 ◽

Vol 14 (1) ◽

pp. 384 ◽

Cited By ~ 14

Author(s):

Hanno Schmidt ◽

Bastian Greshake ◽

Barbara Feldmeyer ◽

Thomas Hankeln ◽

Markus Pfenninger

Keyword(s):

Ecological Niche ◽

Sister Species ◽

Biting Midges ◽

Niche Divergence ◽

Genomic Basis

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Effects of climate change and human influence in the distribution and range overlap between two widely distributed avian scavengers

Bird Conservation International ◽

10.1017/s0959270920000271 ◽

2020 ◽

pp. 1-19

Author(s):

FAUSTO SÁENZ-JIMÉNEZ ◽

OCTAVIO ROJAS-SOTO ◽

JAIRO PÉREZ-TORRES ◽

ENRIQUE MARTÍNEZ-MEYER ◽

JAMES K. SHEPPARD

Keyword(s):

Climate Change ◽

Ecological Niche ◽

Ecological Niche Modeling ◽

Similar Species ◽

Future Scenarios ◽

Human Influence ◽

Clear Trend ◽

Range Overlap ◽

New Interactions ◽

Vultur Gryphus

Summary Climate change can cause geographic displacement of the ecological niche of a species, so that similar species that previously did not coexist could begin to face new interactions. Such geographic displacement and increased competition can also be exacerbated by anthropic intervention. Until less than 100 years ago, Vultur gryphus and Coragyps atratus did not coexist. Nowadays, possibly as a result of climate change, changes in the distributions of both species created areas where they are now sympatric. Through ecological niche modeling, we evaluated the possible effects that future scenarios of climate change and human influence would have on the distribution and sympatry between the two species. Our models predict that the current distribution of V. gryphus will be reduced between 18% and 24% by 2050 and between 21% and 32% by 2070. Additionally, they predict that the distribution of C. atratus will be reduced by 31–52% by the year 2050 and 15–60% by 2070. The two algorithms predict a reduction in the areas of sympatry. However, for the northern Andes the overlap between the two species will increase, reaching up to 70% in the year 2070. The distribution of C. atratus will move towards higher areas in the altitudinal gradient, and this will generate an increase in the current sympatry between both species. No clear trend was observed on the effect of human influences on the areas of overlap between the scenarios evaluated. The possible effects of climate change and anthropic intervention in future scenarios found in this study highlight the need to include these effects in future analyses and conservation programs of V. gryphus and other threatened vultures.

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