Stephanie Carlson

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Stephanie Marie Carlson
Alma mater University of California, Davis (B.S.)
University of Massachusetts, Amherst (M.S.)
University of Washington (Ph.D.)
Scientific career
Fields Evolutionary Ecology, Fisheries
Institutions University of California Berkeley
Thesis The evolutionary effects of bear predation on salmon life history and morphology  (2006)
Website nature.berkeley.edu/carlsonlab/

Stephanie M. Carlson is the A.S. Leopold Chair in Wildlife Biology at the University of California Berkeley. [1] Her research considers fish ecology, freshwater ecology, and evolutionary ecology.

Contents

Education

Carlson was the first member of her family to attend college. [2] She earned her undergraduate degree in evolution and ecology at the University of California, Davis. [1] She moved across the United States for her graduate studies, joining the Department of Organismic and Evolutionary Biology at the University of Massachusetts for a master's degree. [1] After completing her master's degree in 2002, Carlson joined the University of Washington School for Aquatic and Fisheries Science as a doctoral researcher. [1] [3]

Research

Carson studies how predator-prey relationships and anthropogenic influences inform the ecology and evolution of freshwater fish populations. [4] After graduating, Carlson was awarded a Marie Curie Early Stage Training Fellowship to join the University of Oslo Centre for Ecological and Evolutionary Synthesis. [4] In 2007 Carlson was awarded appointed an NSF Postdoctoral Fellow in Biological Informatics at the University of California, Santa Cruz.

She started her independent scientific career at the University of California, Berkeley. Here she has specialised on evolution and loss of biodiversity among salmon populations, impacts of drought and climate change on streams, the ecological and evolutionary impacts of management (water, fishery, hatchery, and protected areas), harvest selection and evolutionary enlightened management. Her research identified that the loss of diversity amongst salmon in managed rivers reduces their ability to respond to climate change. [5] Salmon are usually protected form changing environmental conditions by the portfolio effect; which describes the diversity of salmon migration strategies. [5]

Awards and honours

Select publications

Personal life

Carlson is part of the organisation 500 Queer Scientists. [2]

Related Research Articles

<span class="mw-page-title-main">Latitudinal gradients in species diversity</span> Global increase in species richness from polar regions to tropics

Species richness, or biodiversity, increases from the poles to the tropics for a wide variety of terrestrial and marine organisms, often referred to as the latitudinal diversity gradient. The latitudinal diversity gradient is one of the most widely recognized patterns in ecology. It has been observed to varying degrees in Earth's past. A parallel trend has been found with elevation, though this is less well-studied.

The term phylogenetic niche conservatism has seen increasing use in recent years in the scientific literature, though the exact definition has been a matter of some contention. Fundamentally, phylogenetic niche conservatism refers to the tendency of species to retain their ancestral traits. When defined as such, phylogenetic niche conservatism is therefore nearly synonymous with phylogenetic signal. The point of contention is whether or not "conservatism" refers simply to the tendency of species to resemble their ancestors, or implies that "closely related species are more similar than expected based on phylogenetic relationships". If the latter interpretation is employed, then phylogenetic niche conservatism can be seen as an extreme case of phylogenetic signal, and implies that the processes which prevent divergence are in operation in the lineage under consideration. Despite efforts by Jonathan Losos to end this habit, however, the former interpretation appears to frequently motivate scientific research. In this case, phylogenetic niche conservatism might best be considered a form of phylogenetic signal reserved for traits with broad-scale ecological ramifications. Thus, phylogenetic niche conservatism is usually invoked with regards to closely related species occurring in similar environments.

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References