Peter C Searle

Cornell University | CU · Department of Ecology and Evolutionary Biology

We report the complete mitochondrial genomes of two rockfish: Sebastes maliger and Sebastes norvegicus. The mitogenomes consist of 13 protein-coding regions, 22 tRNAs, two rRNAs, and one control region. Sebastes mitogenome control regions are highly variable due to the presence of repeat sequences. The mitogenomes for S. maliger and S. norvegicus a...

The relationship between June sucker (Chasmistes liorus, Jordan, 1878) and Utah sucker (Catostomus ardens, Jordan & Gilbert, 1881) has been a matter of controversy since the mid 1900s. Chasmistes liorus is endemic to Utah Lake, UT and has a subterminal mouth adapted for pelagic feeding. Catostomus ardens is widely distributed throughout the Bonnevi...

Species delimitation among closely related species is challenging because traditional phenotype-based approaches, for example, using morphology, ecological, or chemical characteristics, may not coincide with natural groupings. With the advent of high-throughput sequencing, it has become increasingly cost-effective to acquire genome-scale data which...

We characterise the complete mitochondrial genomes (mitogenomes) of Black rockfish ( Sebastes melanops Girard, 1856; n = 1), Dark rockfish ( Sebastes ciliatus Tilesius, 1813; n = 2) and Dusky rockfish ( Sebastes variabilis Pallas, 1814; n = 2). The lengths of the mitogenomes are 16,405 bp for S. melanops , 16,400 bp for both S. ciliatus and 16,400...

Body and head shape among fishes both vary between environments influenced by water velocity and across ontogeny. Although the shape changes associated with variation in average water velocity and ontogeny are well documented, few studies have tested for the interaction between these two variables (i.e., does ontogenetic shape variation differ betw...

Species delimitation among closely related species is challenging because traditional phenotype-based approaches, e.g., morphology, ecological, or chemical characteristics, often produce conflicting results. With the advent of high-throughput sequencing, it has become increasingly cost-effective to acquire genome-scale data which can resolve previo...

Body and head shape in fish responds to environmental factors such as water flow rate, food sources, and niche availability. However, the way in which fish respond to these environmental factors varies. In Central Chile, multiple river and lake systems along the coast provide an ideal study site to investigate these types of shape changes. We use g...

Background Assemblages of fishes in lakes and reservoirs in the western USA are dominated by non-native, large-bodied, piscivorous fishes that lack a shared evolutionary history. Top predators in these crowded systems are often characterized by unstable population dynamics and poor somatic growth rates. One such assemblage is in Fish Lake, located...