Assessment of individual costs of the anti-predator defence translating into changes in population parameters is meagre.This is because prey responses are likely to be modulated by additional factors,commonly present ...Assessment of individual costs of the anti-predator defence translating into changes in population parameters is meagre.This is because prey responses are likely to be modulated by additional factors,commonly present in the environment,but often neglected in experimental studies.To evaluate the effect of external factors on prey behavior and physiology,we exposed amphipods Dikerogammarus villosus and Gammarus jazdzewskii to the predation cue of Perca fluviatilis in different densities and light conditions.Singletons of both species exposed to the predation cue in light modified their oxygen consumption(D.villosus:reduction,G.jadzewskii:increase)compared to their respiration in predator-free conditions.However,in the presence of conspecifics or in darkness,their respiration became insensitive to the predation cue.On the other hand,the swimming activity of prey was reduced in the presence of the predation cue irrespective of prey density and light conditions,but singletons were consistently more active than groups.Thus,external factors,such as conspecifics and darkness,constantly or periodically occurring in the field,may reduce the costs of predator non-consumptive effects compared to the costs measured under laboratory conditions(in light or absence of conspecifics).Moreover,we showed that behavioral and physiological parameters of prey may change differently in response to predation risk.Thus,conclusions drawn on the basis of single defence mechanisms and/or results obtained in artificial conditions,not reflecting the environmental complexity,strongly depend on the experimental design and endpoint selection and therefore should be treated with care.展开更多
Globally,fish are frequently introduced beyond their native range.Some,like Ponto-Caspian gobies,are becoming invasive,achieving high colo-nization rates and constituting frequent prey for native predators.However,lit...Globally,fish are frequently introduced beyond their native range.Some,like Ponto-Caspian gobies,are becoming invasive,achieving high colo-nization rates and constituting frequent prey for native predators.However,little is known about the effectiveness of antipredator behaviors of the invaders,which may shape their role in the invaded community and contribute to the invasion success.We compared antipredator behaviors of invasive gobies and native fish species after their detection by the predator,when the danger becomes direct.We studied 2 fish pairs,each consisting of an invasive and native species co-occurring in the environment and belonging to the same prey guild:(1)the racer goby Babka gymnotrachelus versus European bulhead Cottus gobio,(2)the monkey goby Neogobius fluviatilis versus gudgeon Gobio gobio,facing a naive predator(the Eurasian perch Perca fluviatilis).We analyzed behaviors of single prey individuals(escaping,staying in shelter,and activity)and sin-gle predators(activity,searching,following,capturing,and latency to prey consumption).In the predator presence,the bullhead was less active and more often managed to escape after capture than the racer goby.The gudgeon escaped before the capture more often than the monkey goby.The predator succeeded later with the bullhead compared to racer goby,whereas no differences in ingestion time occurred between the gudgeon and monkey goby.The results suggest that,in terms of hunting effort of native predators,the invasive gobies are equivalent to or more profitable prey than their native analogs,which can facilitate the integration of the gobies into local food webs.展开更多
基金Our study was supported by the grants of the National Science Centre,Poland No.2016/21/B/NZ8/00418 and 2020/39/D/NZ8/01226.
文摘Assessment of individual costs of the anti-predator defence translating into changes in population parameters is meagre.This is because prey responses are likely to be modulated by additional factors,commonly present in the environment,but often neglected in experimental studies.To evaluate the effect of external factors on prey behavior and physiology,we exposed amphipods Dikerogammarus villosus and Gammarus jazdzewskii to the predation cue of Perca fluviatilis in different densities and light conditions.Singletons of both species exposed to the predation cue in light modified their oxygen consumption(D.villosus:reduction,G.jadzewskii:increase)compared to their respiration in predator-free conditions.However,in the presence of conspecifics or in darkness,their respiration became insensitive to the predation cue.On the other hand,the swimming activity of prey was reduced in the presence of the predation cue irrespective of prey density and light conditions,but singletons were consistently more active than groups.Thus,external factors,such as conspecifics and darkness,constantly or periodically occurring in the field,may reduce the costs of predator non-consumptive effects compared to the costs measured under laboratory conditions(in light or absence of conspecifics).Moreover,we showed that behavioral and physiological parameters of prey may change differently in response to predation risk.Thus,conclusions drawn on the basis of single defence mechanisms and/or results obtained in artificial conditions,not reflecting the environmental complexity,strongly depend on the experimental design and endpoint selection and therefore should be treated with care.
基金supported by Narodowe Centrum Nauki(NCN Grant No.2016/23/B/NZ8/00741,PI:TK).
文摘Globally,fish are frequently introduced beyond their native range.Some,like Ponto-Caspian gobies,are becoming invasive,achieving high colo-nization rates and constituting frequent prey for native predators.However,little is known about the effectiveness of antipredator behaviors of the invaders,which may shape their role in the invaded community and contribute to the invasion success.We compared antipredator behaviors of invasive gobies and native fish species after their detection by the predator,when the danger becomes direct.We studied 2 fish pairs,each consisting of an invasive and native species co-occurring in the environment and belonging to the same prey guild:(1)the racer goby Babka gymnotrachelus versus European bulhead Cottus gobio,(2)the monkey goby Neogobius fluviatilis versus gudgeon Gobio gobio,facing a naive predator(the Eurasian perch Perca fluviatilis).We analyzed behaviors of single prey individuals(escaping,staying in shelter,and activity)and sin-gle predators(activity,searching,following,capturing,and latency to prey consumption).In the predator presence,the bullhead was less active and more often managed to escape after capture than the racer goby.The gudgeon escaped before the capture more often than the monkey goby.The predator succeeded later with the bullhead compared to racer goby,whereas no differences in ingestion time occurred between the gudgeon and monkey goby.The results suggest that,in terms of hunting effort of native predators,the invasive gobies are equivalent to or more profitable prey than their native analogs,which can facilitate the integration of the gobies into local food webs.