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W4225113075 abstract "A forager's energy intake rate is usually constrained by a combination of handling time, encounter rate and digestion rate. On top of that, food intake may be constrained when a forager can only process a maximum amount of certain toxic compounds. The latter constraint is well described for herbivores with a limited tolerance to plant secondary metabolites. In sulfidic marine ecosystems, many animals host chemoautotrophic endosymbionts, which store sulfur compounds as an energy resource, potentially making their hosts toxic to predators. The red knot Calidris canutus canutus is a molluscivore shorebird that winters on the mudflats of Banc d'Arguin, where the most abundant bivalve prey Loripes orbiculatus hosts sulfide-oxidizing bacteria. In this system, we studied the potential effect of sulfur on the red knots' intake rates, by offering Loripes with various sulfur content to captive birds. To manipulate toxicity, we starved Loripes for 10 days by removing them from their symbiont's energy source sulfide. As predicted, we found lower sulfur concentrations in starved Loripes. We also included natural variation in sulfur concentrations by offering Loripes collected at two different locations. In both cases lower sulfur levels in Loripes resulted in higher consumption rates in red knots. Over time the red knots increased their intake rates on Loripes, showing their ability to adjust to a higher intake of sulfur." @default.
W4225113075 created "2022-05-01" @default.
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W4225113075 date "2022-04-29" @default.
W4225113075 modified "2023-09-30" @default.
W4225113075 title "Sulfur in lucinid bivalves inhibits intake rates of a molluscivore shorebird" @default.
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W4225113075 cites W1969027200 @default.
W4225113075 cites W1974897987 @default.
W4225113075 cites W1975565592 @default.
W4225113075 cites W1977550997 @default.
W4225113075 cites W1979073566 @default.
W4225113075 cites W1990014383 @default.
W4225113075 cites W1996964590 @default.
W4225113075 cites W1997490968 @default.
W4225113075 cites W1999118693 @default.
W4225113075 cites W2002984461 @default.
W4225113075 cites W2006688668 @default.
W4225113075 cites W2009156161 @default.
W4225113075 cites W2016804185 @default.
W4225113075 cites W2017069176 @default.
W4225113075 cites W2024133123 @default.
W4225113075 cites W2026406987 @default.
W4225113075 cites W2027893898 @default.
W4225113075 cites W2034338251 @default.
W4225113075 cites W2036332372 @default.
W4225113075 cites W2045653366 @default.
W4225113075 cites W2046492674 @default.
W4225113075 cites W2049220790 @default.
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W4225113075 cites W2076276280 @default.
W4225113075 cites W2076453427 @default.
W4225113075 cites W2076896145 @default.
W4225113075 cites W2077369124 @default.
W4225113075 cites W2082250875 @default.
W4225113075 cites W2085143759 @default.
W4225113075 cites W2085407614 @default.
W4225113075 cites W2085529485 @default.
W4225113075 cites W2091960560 @default.
W4225113075 cites W2098082325 @default.
W4225113075 cites W2100174715 @default.
W4225113075 cites W2105425146 @default.
W4225113075 cites W2110635897 @default.
W4225113075 cites W2113890077 @default.
W4225113075 cites W2117091952 @default.
W4225113075 cites W2118957528 @default.
W4225113075 cites W2120854694 @default.
W4225113075 cites W2122432702 @default.
W4225113075 cites W2123105131 @default.
W4225113075 cites W2123851264 @default.
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W4225113075 cites W2140133540 @default.
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W4225113075 cites W2143269314 @default.
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W4225113075 cites W2167705019 @default.
W4225113075 cites W2171716446 @default.
W4225113075 cites W2267285071 @default.
W4225113075 cites W2325160296 @default.
W4225113075 cites W2351287254 @default.
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W4225113075 doi "https://doi.org/10.1007/s00442-022-05170-3" @default.
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