TY - JOUR
T1 - Beyond monoculture stoichiometry studies
T2 - Assessing growth, respiration, and feeding responses of three daphnia species to p-enriched, low C:P lake seston
AU - Currier, Courtney M.
AU - Elser, James J.
N1 - Publisher Copyright:
© 2017 International Society of Limnology (SIL).
PY - 2017
Y1 - 2017
N2 - Numerous studies in ecological stoichiometry have assessed responses of Daphnia to single-and multi-species food resources of varying nutritional quality. Diets based on P-limited algae with a high biomass carbon to phosphorus (C:P) ratio impose decreased growth on Daphnia because P demands for growth are not met. More recently, laboratory studies have shown that P-rich algal food also results in decreased growth rates for Daphnia; however, no published study has tested the impact of low food C:P on Daphnia under field conditions. To address this, we measured growth rate as well as respiration and ingestion rates for D. magna, D. pulicaria, and D. pulex that were fed lake seston experimentally enriched with phosphate (PO4 3−). Lake seston during the experimental period successfully took up PO4 3− enrichment treatments and was dominated by cyanobacteria and haptophytes, primarily those from the genus Prymnesium. Growth rate reductions for D. magna were strong in response to high-P food, most likely as a result of decreased ingestion rate; however, growth rate responses for D. pulex and D. pulicaria were modest and not statistically significant, although significant responses in respiration rates were observed for all species. Our study extends laboratory findings that P-rich food can have deleterious impacts on Daphnia to field conditions. We also found diverse responses among species, however, possibly caused by variations among taxa in body stoichiometry or physiology, differences in ambient and treatment seston C:P for the various experiments, or the effects of diet diversity under high-P conditions.
AB - Numerous studies in ecological stoichiometry have assessed responses of Daphnia to single-and multi-species food resources of varying nutritional quality. Diets based on P-limited algae with a high biomass carbon to phosphorus (C:P) ratio impose decreased growth on Daphnia because P demands for growth are not met. More recently, laboratory studies have shown that P-rich algal food also results in decreased growth rates for Daphnia; however, no published study has tested the impact of low food C:P on Daphnia under field conditions. To address this, we measured growth rate as well as respiration and ingestion rates for D. magna, D. pulicaria, and D. pulex that were fed lake seston experimentally enriched with phosphate (PO4 3−). Lake seston during the experimental period successfully took up PO4 3− enrichment treatments and was dominated by cyanobacteria and haptophytes, primarily those from the genus Prymnesium. Growth rate reductions for D. magna were strong in response to high-P food, most likely as a result of decreased ingestion rate; however, growth rate responses for D. pulex and D. pulicaria were modest and not statistically significant, although significant responses in respiration rates were observed for all species. Our study extends laboratory findings that P-rich food can have deleterious impacts on Daphnia to field conditions. We also found diverse responses among species, however, possibly caused by variations among taxa in body stoichiometry or physiology, differences in ambient and treatment seston C:P for the various experiments, or the effects of diet diversity under high-P conditions.
KW - Daphnia
KW - Growth
KW - Nutritionphosphorus
KW - Stoichiometry
UR - http://www.scopus.com/inward/record.url?scp=85054824263&partnerID=8YFLogxK
U2 - 10.1080/20442041.2017.1319180
DO - 10.1080/20442041.2017.1319180
M3 - Article
AN - SCOPUS:85054824263
SN - 2044-2041
VL - 7
SP - 348
EP - 357
JO - Inland Waters
JF - Inland Waters
IS - 3
ER -