Sara K. Edquist scite author profile

Environmental temperature and an organism's ability to respond to it are critical determinants of the geographic distribution of species. Nematostella vectensis is a burrowing sea anemone that inhabits estuaries along the Atlantic coast of North America from Nova Scotia (45°N) to Georgia (31°N). Like other estuarine species, N. vectensis is exposed to large daily (> 20°C) and seasonal (> 25°C) fluctuations in temperature, requiring wide temperature tolerances. At the same time, the natural distribution of this species spans a pronounced thermal cline, which may promote the evolution of different temperature optima and tolerances in populations. We tested the thermal tolerance of N. vectensis adult and developmental stages, which showed all life cycle stages had critical temperatures within 1°C (lethal temperature 39.5 to 40.5°C). When temperature tolerance values were compared with recorded field data, N. vectensis is living in environments very close to their physiological limit. We utilized common garden experiments (13, 21, and 29°C) to test for temperature-specific growth and regeneration rates in N. vectensis from different portions of this species' range. Temperature had a significant effect on growth and regeneration rate in all clonal lines, with a significant negative relationship between latitude of origin and growth rate at 29°C. Individuals from higher latitudes did not exhibit higher growth rates at cooler temperatures. Together, our results show a combination of broad thermal tolerances for developmental and adult stages and evidence for local adaptation to higher temperatures in populations living in lower latitude locations that would be physiologically compromised with future warming.

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Ecological and Developmental Dynamics of a Host-Parasite System Involving a Sea Anemone and Two Ctenophores

Reitzel

Sullivan

Brown

et al. 2007

Journal of Parasitology

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The lined sea anemone Edwardsiella lineata has evolved a derived parasitic life history that includes a novel body plan adapted for life inside its ctenophore hosts. Reputedly its sole host is the sea walnut, Mnemiopsis leidyi, a voracious planktivore and a seasonally abundant member of many pelagic ecosystems. However, we have observed substantially higher E. lineata prevalence in a second ctenophore species, the ctenophore predator Beroë ovata. The interplay among these 3 species has important conservation consequences as M. leidyi introductions are thought to be responsible for the severe depletion of numerous commercial fisheries in the Mediterranean basin, and both E. lineata and B. ovata have been proposed as biological controls for invasive M. leidyi. Over a 3-yr period (2004-2006), we collected 8,253 ctenophores from Woods Hole, Massachusetts, including M. leidyi, B. ovata, and a third ctenophore, Pleurobrachia pileus, and we recorded E. lineata infection frequencies, parasite load, and parasite location. We also conducted laboratory experiments to determine the likely mechanisms for parasite introduction and the effect of each host on parasite development. We observed peak E. lineata infection frequencies of 0% in P. pileus, 59% in M. leidyi, and 100% in B. ovata, suggesting that B. ovata could be an important natural host for E. lineata. However, in laboratory experiments, E. lineata larvae proved far more successful at infecting M. leidyi than B. ovata, and E. lineata parasites excised from M. leidyi exhibited greater developmental competence than parasites excised from B. ovata. Although we show that E. lineata is efficiently transferred from M. leidyi to B. ovata when the latter preys upon the former, we conclude that E. lineata larvae are not well adapted for parasitizing the latter species and that the E. lineata parasite is not well adapted for feeding in B. ovata; these developmental and ecological factors underlie the host specificity of this recently evolved parasite.

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Testing vacancy chain predictions in Pagurus longicarpus hermit crabs: Does ecological gain and behavioral motivation match environmental context?

Edquist

Rotjan

2012

Journal of Experimental Marine Biology and Ecology

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Investigating the impact of introduced crabs on the distribution and morphology of littorinid snails: Implications for the survival of the snailLittorina saxatilis

Wells¹,

Volkom

Edquist

et al. 2023

Preprint

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Introduced species can have profound impacts on communities by displacing and consuming native species. The intertidal communities in the Gulf of Maine have been radically altered through a suite of invasions including the herbivorous snailLittorina littoreaand the omnivorous crabCarcinus maenasleading to morphological and spatial distribution changes in two native gastropod grazers (Littorina saxatilisandLittorina obtusata). Subsequently, another intertidal omnivorous crabHemigrapsus sanguineushas become abundant in the intertidal, occurring in areas which were once refuges from crab predation. In order to quantify the potential impact ofH. sanguineuson native snails, we conducted bothinandex situexperiments, testing the susceptibility of different sized snails to predation by introduced crabs. Additionally, we measured the distribution, abundance, and morphology of intertidal snails and crabs. Smaller snails of all species were the most susceptible to predation, although susceptibility differed among snail species.Littorina saxatiliswas the most vulnerable to predation, with 73 and 64% of the population susceptible to largeH. sanguineusand smallC. maenas, respectively, while more than 89% of theL. littoreapopulation was resistant to predation.Littorina saxatilishas been relegated to the high intertidal where there is high abiotic stress and poor-quality food, but until the invasion ofH. sanguineus, there was little predation risk. Now, it seems thatL. saxatilisis at the most risk of all three snail species, and may be at threat of local extirpation at locations with high populations ofH. sanguineus.

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Sara K. Edquist

Physiological and developmental responses to temperature by the sea anemone Nematostella vectensis

Ecological and Developmental Dynamics of a Host-Parasite System Involving a Sea Anemone and Two Ctenophores

Testing vacancy chain predictions in Pagurus longicarpus hermit crabs: Does ecological gain and behavioral motivation match environmental context?

Investigating the impact of introduced crabs on the distribution and morphology of littorinid snails: Implications for the survival of the snailLittorina saxatilis

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