Kyle A. Young scite author profile

Species diversity can be lost through two different but potentially interacting extinction processes: demographic decline and speciation reversal through introgressive hybridization. To investigate the relative contribution of these processes, we analysed historical and contemporary data of replicate whitefish radiations from 17 pre-alpine European lakes and reconstructed changes in genetic species differentiation through time using historical samples. Here we provide evidence that species diversity evolved in response to ecological opportunity, and that eutrophication, by diminishing this opportunity, has driven extinctions through speciation reversal and demographic decline. Across the radiations, the magnitude of eutrophication explains the pattern of species loss and levels of genetic and functional distinctiveness among remaining species. We argue that extinction by speciation reversal may be more widespread than currently appreciated. Preventing such extinctions will require that conservation efforts not only target existing species but identify and protect the ecological and evolutionary processes that generate and maintain species.

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When Rensch Meets Bergmann: Does Sexual Size Dimorphism Change Systematically With Latitude?

Blanckenhorn¹,

Stillwell²,

Young³

et al. 2006

Evol

144

197

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Bergmann's and Rensch's rules describe common large-scale patterns of body size variation, but their underlying causes remain elusive. Bergmann's rule states that organisms are larger at higher latitudes (or in colder climates). Rensch's rule states that male body size varies (or evolutionarily diverges) more than female body size among species, resulting in slopes greater than one when male size is regressed on female size. We use published studies of sex-specific latitudinal body size clines in vertebrates and invertebrates to investigate patterns equivalent to Rensch's rule among populations within species and to evaluate their possible relation to Bergmann's rule. Consistent with previous studies, we found a continuum of Bergmann (larger at higher latitudes: 58 species) and converse Bergmann body size clines (larger at lower latitudes: 40 species). Ignoring latitude, male size was more variable than female size in only 55 of 98 species, suggesting that intraspecific variation in sexual size dimorphism does not generally conform to Rensch's rule. In contrast, in a significant majority of species (66 of 98) male latitudinal body size clines were steeper than those of females. This pattern is consistent with a latitudinal version of Rensch's rule, and suggests that some factor that varies systematically with latitude is responsible for producing Rensch's rule among populations within species. Identifying the underlying mechanisms will require studies quantifying latitudinal variation in sex-specific natural and sexual selection on body size.

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The Accumulation of Reproductive Incompatibilities in African Cichlid Fish

2010

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The rate at which different components of reproductive isolation accumulate with divergence time between species has only been studied in a limited, but growing, number of species. We measured premating isolation and hybrid inviability at four different ontogenetic stages from zygotes to adults in interspecific hybrids of 26 pairs of African cichlid species, spanning the entire East African haplochromine radiation. We then used multiple relaxed molecular clock calibrations to translate genetic distances into absolute ages to compare evolutionary rates of different components of reproductive isolation. We find that premating isolation accumulates fast initially but then changes little with increasing genetic distance between species. In contrast, postmating isolation between closely related species is negligible but then accumulates rapidly, resulting in complete hybrid inviability after 4.4/8.5/18.4 million years (my). Thus, the rate at which complete intrinsic incompatibilities arise in this system is orders of magnitude lower than rates of speciation within individual lake radiations. Together these results suggest divergent ecological adaptations may prevent populations from interbreeding and help maintain cichlid species diversity, which may be vulnerable to environmental degradation. By quantifying the capacity to produce viable hybrids between allopatric, distantly related lineages our results also provide an upper divergence time limit for the "hybrid swarm origin" model of adaptive radiation. K E Y W O R D S :Adaptive radiation, cichlid fish, divergence time, genetic distance, hybrid (in)viability, relaxed molecular clock, reproductive isolation, speciation.

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When Rensch Meets Bergmann: Does Sexual Size Dimorphism Change Systematically With Latitude?

et al. 2006

View full text Add to dashboard Cite

Abstract. Bergmann's and Rensch's rules describe common large-scale patterns of body size variation, but their underlying causes remain elusive. Bergmann's rule states that organisms are larger at higher latitudes (or in colder climates). Rensch's rule states that male body size varies (or evolutionarily diverges) more than female body size among species, resulting in slopes greater than one when male size is regressed on female size. We use published studies of sex-specific latitudinal body size clines in vertebrates and invertebrates to investigate patterns equivalent to Rensch's rule among populations within species and to evaluate their possible relation to Bergmann's rule. Consistent with previous studies, we found a continuum of Bergmann (larger at higher latitudes: 58 species) and converse Bergmann body size clines (larger at lower latitudes: 40 species). Ignoring latitude, male size was more variable than female size in only 55 of 98 species, suggesting that intraspecific variation in sexual size dimorphism does not generally conform to Rensch's rule. In contrast, in a significant majority of species (66 of 98) male latitudinal body size clines were steeper than those of females. This pattern is consistent with a latitudinal version of Rensch's rule, and suggests that some factor that varies systematically with latitude is responsible for producing Rensch's rule among populations within species. Identifying the underlying mechanisms will require studies quantifying latitudinal variation in sexspecific natural and sexual selection on body size.

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Asymmetric Competition, Habitat Selection, and Niche Overlap in Juvenile Salmonids

Young

2004

Ecology

106

103

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The relationship among asymmetric competition, habitat selection, and niche overlap is poorly understood. I conducted a response surface design experiment in artificial stream channels using juvenile coho salmon (Oncorhynchus kisutch) and steelhead trout (O. mykiss) to explore the density‐ and scale‐dependent relationship among asymmetric competition, habitat selection, and niche overlap. In these sympatric populations, juvenile coho are larger, occupy mutually preferred deep, low‐velocity pools, and displace steelhead into shallow, high‐velocity riffles. I measured habitat selection over a wide range of species' densities under two competitive scenarios: coho larger than steelhead (natural size asymmetry), and species size matched (natural size asymmetry removed). When coho had their natural size advantage, interspecific competition was strongly asymmetric, and habitat selection by both species depended primarily on coho density. Removing the size advantage of coho reduced by half the per capita effect of coho on steelhead habitat selection, which was then affected similarly by intra‐ and interspecific competition. However, habitat selection by coho still depended more on intra‐ than interspecific competition. The effect of asymmetric competition on niche overlap was density‐ and scale‐dependent. Asymmetric competition reduced niche overlap nonsignificantly across all densities at the habitat type scale (pools, riffles). At the microhabitat scale (velocity, distance, depth), asymmetric competition reduced niche overlap at low, but not high, densities. Because I manipulated the competitive asymmetry in a single sympatric species pair, this experiment alters a competitive interaction while controlling for evolutionary history and thus provides a direct test of the effect of asymmetric competition on habitat selection and niche overlap. Combining a response surface design with different measures of niche overlap reveals how this effect can be both density‐ and scale‐dependent.

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Competitive and Facilitative Evolutionary Diversification

Day¹,

Young²

2004

BioScience

110

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Salmon aquaculture and coastal ecosystem health in Chile: Analysis of regulations, environmental impacts and bioremediation systems

Buschmann

Cabello

Young

et al. 2009

Ocean & Coastal Management

171

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Morphological Diversity and the Roles of Contingency, Chance and Determinism in African Cichlid Radiations

2009

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BackgroundDeterministic evolution, phylogenetic contingency and evolutionary chance each can influence patterns of morphological diversification during adaptive radiation. In comparative studies of replicate radiations, convergence in a common morphospace implicates determinism, whereas non-convergence suggests the importance of contingency or chance.Methodology/Principal FindingsThe endemic cichlid fish assemblages of the three African great lakes have evolved similar sets of ecomorphs but show evidence of non-convergence when compared in a common morphospace, suggesting the importance of contingency and/or chance. We then analyzed the morphological diversity of each assemblage independently and compared their axes of diversification in the unconstrained global morphospace. We find that despite differences in phylogenetic composition, invasion history, and ecological setting, the three assemblages are diversifying along parallel axes through morphospace and have nearly identical variance-covariance structures among morphological elements.Conclusions/SignificanceBy demonstrating that replicate adaptive radiations are diverging along parallel axes, we have shown that non-convergence in the common morphospace is associated with convergence in the global morphospace. Applying these complimentary analyses to future comparative studies will improve our understanding of the relationship between morphological convergence and non-convergence, and the roles of contingency, chance and determinism in driving morphological diversification.

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Kyle A. Young

Eutrophication causes speciation reversal in whitefish adaptive radiations

When Rensch Meets Bergmann: Does Sexual Size Dimorphism Change Systematically With Latitude?

The Accumulation of Reproductive Incompatibilities in African Cichlid Fish

When Rensch Meets Bergmann: Does Sexual Size Dimorphism Change Systematically With Latitude?

Asymmetric Competition, Habitat Selection, and Niche Overlap in Juvenile Salmonids

Competitive and Facilitative Evolutionary Diversification

Salmon aquaculture and coastal ecosystem health in Chile: Analysis of regulations, environmental impacts and bioremediation systems

Morphological Diversity and the Roles of Contingency, Chance and Determinism in African Cichlid Radiations

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