TY - JOUR
T1 - Facultative feeding in a marine copepod
T2 - effects of larval food and temperature on performance
AU - Gangur, Alexander N.
AU - Marshall, Dustin J.
N1 - Funding Information:
Acknowledgements. Thanks to Giulia Ghedini and Martino Malerba, who helped refine laboratory procedures. Thanks also to Emily Richardson for providing feedback on the draft manuscript. This research was supported by an Australian Government Research Training Program stipend and Monash Graduate Excellence Scholarship to A.N.G.
Publisher Copyright:
© Inter-Research 2020
PY - 2020/10/15
Y1 - 2020/10/15
N2 - Most marine invertebrate larvae either feed or rely on reserves provisioned by parents to fuel development, but facultative feeders can do both. Food availability and temperature are key environmental drivers of larval performance, but the effects of larval experience on performance later in life are poorly understood in facultative feeders. In particular, the functional relevance of facultative feeding is unclear. One feature to be tested is whether starved larvae can survive to adulthood and reproduce. We evaluated effects of larval temperature and food abundance on performance in a marine harpacticoid copepod, Tisbe sp. In doing so, we report the first example of facultative feeding across the entire larval stage for a copepod. In a series of experiments, larvae were reared with ad libitum food or with no food, and at 2 different temperatures (20 vs. 24°C). We found that higher temperatures shortened development time, and larvae reared at higher temperature tended to be smaller. Larval food consistently improved early performance (survival, development rate and size) in larvae, while starvation consistently decreased survival, increased development time and decreased size at metamorphosis. Nonetheless, a small proportion (3−9.5%, or 30−42.7% with antibiotics) of larvae survived to metamorphosis, could recover from a foodless larval environment, reach maturity and successfully reproduce. We recommend that future studies of facultative feeding consider the impact of larval environments on adult performance and ability to reproduce.
AB - Most marine invertebrate larvae either feed or rely on reserves provisioned by parents to fuel development, but facultative feeders can do both. Food availability and temperature are key environmental drivers of larval performance, but the effects of larval experience on performance later in life are poorly understood in facultative feeders. In particular, the functional relevance of facultative feeding is unclear. One feature to be tested is whether starved larvae can survive to adulthood and reproduce. We evaluated effects of larval temperature and food abundance on performance in a marine harpacticoid copepod, Tisbe sp. In doing so, we report the first example of facultative feeding across the entire larval stage for a copepod. In a series of experiments, larvae were reared with ad libitum food or with no food, and at 2 different temperatures (20 vs. 24°C). We found that higher temperatures shortened development time, and larvae reared at higher temperature tended to be smaller. Larval food consistently improved early performance (survival, development rate and size) in larvae, while starvation consistently decreased survival, increased development time and decreased size at metamorphosis. Nonetheless, a small proportion (3−9.5%, or 30−42.7% with antibiotics) of larvae survived to metamorphosis, could recover from a foodless larval environment, reach maturity and successfully reproduce. We recommend that future studies of facultative feeding consider the impact of larval environments on adult performance and ability to reproduce.
KW - Facultative feeding
KW - Larval nutrition strategies
KW - Latent effects
KW - Marine copepod
KW - Starvation
KW - Tisbe sp
UR - http://www.scopus.com/inward/record.url?scp=85094962231&partnerID=8YFLogxK
U2 - 10.3354/meps13470
DO - 10.3354/meps13470
M3 - Article
AN - SCOPUS:85094962231
SN - 0171-8630
VL - 652
SP - 33
EP - 47
JO - Marine Ecology-Progress Series
JF - Marine Ecology-Progress Series
ER -