TY - JOUR
T1 - Temperature effects on body size of freshwater crustacean zooplankton from Greenland to the tropics
AU - Havens, Karl
AU - Pinto-Coelho, Ricardo
AU - Beklioglu, Meryem
AU - Christoffersen, Kirsten Seestern
AU - Jeppesen, Erik
AU - Lauridsen, Torben Linding
AU - Mazumder, Asit
AU - Méthot, Ginette
AU - Alloul, Bernadotte Pinel
AU - Tavsanoglu, U. Nihan
AU - Erdogan, Seyda
AU - Vijverberg, Jacobus
PY - 2015/1
Y1 - 2015/1
N2 - The body size of zooplankton has many substantive effects on the function of aquatic food webs. A variety of factors may affect size, and earlier studies indicate that water temperature may be a particularly important variable. Here we tested the hypothesis that the body size of cladocerans, calanoids, and cyclopoids declines with increasing water temperature, a response documented in an earlier study that considered only cladoceran zooplankton. We tested the hypothesis by comparing body size data that were available from prior studies of lakes ranging from 6 to 74o latitude and encompassing a temperature range of 2–30°C. Cladoceran body size declined with temperature, in a marginally significant manner (P = 0.10). For cyclopoids, the decline was more significant (P = 0.05). In both cases, there was considerably more variation around the regression lines than previously observed; suggesting that other variables such as fish predation played a role in affecting size. Calanoid body size was unrelated to temperature. In contrast with cladocerans and cyclopoids, perhaps calanoid body size is not metabolically constrained by temperature or is differently affected by changes in fish predation occurring with increasing temperature. The unexpected result for calanoids requires further investigation.
AB - The body size of zooplankton has many substantive effects on the function of aquatic food webs. A variety of factors may affect size, and earlier studies indicate that water temperature may be a particularly important variable. Here we tested the hypothesis that the body size of cladocerans, calanoids, and cyclopoids declines with increasing water temperature, a response documented in an earlier study that considered only cladoceran zooplankton. We tested the hypothesis by comparing body size data that were available from prior studies of lakes ranging from 6 to 74o latitude and encompassing a temperature range of 2–30°C. Cladoceran body size declined with temperature, in a marginally significant manner (P = 0.10). For cyclopoids, the decline was more significant (P = 0.05). In both cases, there was considerably more variation around the regression lines than previously observed; suggesting that other variables such as fish predation played a role in affecting size. Calanoid body size was unrelated to temperature. In contrast with cladocerans and cyclopoids, perhaps calanoid body size is not metabolically constrained by temperature or is differently affected by changes in fish predation occurring with increasing temperature. The unexpected result for calanoids requires further investigation.
U2 - 10.1007/s10750-014-2000-8
DO - 10.1007/s10750-014-2000-8
M3 - Journal article
SN - 0018-8158
VL - 743
SP - 27
EP - 35
JO - Journal of Aquatic Ecosystem Health
JF - Journal of Aquatic Ecosystem Health
IS - 1
ER -