Abstract
The predation pressure and food availability to which individuals are exposed during their life histories shape inspection behaviour in animals. In this study, we aimed to test whether such behaviours varied with prior experience (predation, starvation or both treatments) or measurement condition (with or without the presence of a predator; here, the snakehead fish, Channa argus) in the fish species Spinibarbus sinensis, known as qingbo. Unexpectedly, prior predator experience showed no significant effect on inspection behaviour as demonstrated by either the frequency or the duration of each activity outside shelter or on cooperation as demonstrated by the inter-individual distance or synchronization of speed. This may have been due to the different adjustments in behaviour among individuals (more shelter use vs. more inspection), the predator treatment used in the present study (exposure to caged predator rather than direct predation) and/or a species-specific strategy in the qingbo. The starved fish displayed shorter inspection latency, increased inspection behaviour and greater cooperation when measured without the predator; however, when measured in the presence of the predator, the starved fish showed increased inspection frequency but shorter inspection duration, possibly due to the compromise between energy needs and predation risk. Similar to those of the predation group, the fish from the double-treated group showed no difference in inspection behaviour compared to the control group under the predator-absent condition, while the high-frequency, short-duration inspection behaviours remained the same as in the starved group. These findings suggested that the adjustment of inspection behaviour and related cooperation are rather complicated according to either predator experience or food deprivation, partially due to the inter-individual differences in behavioural adjustment and/or different environmental conditions.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Archard GA, Braithwaite VA (2011) Increased exposure to predators increases both exploration and activity level in Brachyrhaphis episcope. J Fish Biol 78:593–601
Bell AM, Henderson L, Huntingford FA (2010) Behavioral and respiratory responses to stressors in multiple populations of three-spined sticklebacks that differ in predation pressure. J Comp Physiol B 180:211–220
Bennett AM, Pereira D, Murray DL (2013) Investment into defensive traits by anuran prey (Lithobates pipiens) is mediated by the starvation–predation risk trade-off. PLoS ONE 8:1–9
Biro PA, Post JR, Parkinson EA (2003) From individuals to populations: prey fish risk-taking mediates mortality in whole-system experiments. Ecology 84:2419–2431
Brown GE, Dreier VM (2002) Predator inspection behaviour and attack cone avoidance in a characin fish: the effects of predator diet and prey experience. Anim Behav 63:1175–1181
Brown C, Gardner C, Braithwaite VA (2005) Differential stress responses in fish from areas of high- and low-predation pressure. J Comp Physiol B 175:305–312
Conallin J, Jyde M, Filrup K, Pedersen S (2012) Diel foraging and shelter use of large juvenile brown trout (Salmo trutta) under food satiation. Knowl Manag Aquat Ecosyst 404:05
Czeschlik T, Brown C, Burgess F, Braithwaite VA (2007) Heritable and experiential effects on boldness in a tropical poeciliid. Behav Ecol Sociobiol 62:237–243
Delcourt J, Poncin P (2012) Shoals and schools: back to the heuristic definitions and quantitative references. Rev Fish Biol Fisher 22:595–619
Dugatkin LA (1992) Tendency to inspect predators predicts mortality risk in the guppy (Poecilia reticulata). Behav Ecol 3:124–127
Fraser DF, Gilliam JF (1992) Nonlethal impacts of predator invasion: facultative suppression of growth and reproduction. Ecology 73:959–970
Fu SJ (2016) The effects of group size on schooling behavior in two cyprinid fish species. Aquat Biol 25:165–172
Fu C, Fu SJ, Cao ZD, Yuan XZ (2015) Habitat-specific anti-predator behavior variation among pale chub (Zacco platypus) along a river. Mar Freshwater Behav Physiol 48:267–278
Fu SJ, Nie LJ, Wu H, Kuang L, Huang Q (2016) The effect of group size on school structure in juvenileblack carp. Acta Ecol Sin 36:6062–6067
Fu C, Fu SJ, Wu QY, Cao ZD (2017) Predation threat modifies relationships between metabolism and behavioural traits but not their ecological relevance in Chinese bream. Mar Freshwater Behav Physiol 50(5–6):329–344
Godin JGJ, Crossman SL (1994) Hunger-dependent predator inspection and foraging behaviours in the threespine stickleback (Gasterosteus aculeatus) under predation risk. Behav Ecol Sociobiol 34:359–366
Hansen MJ, Schaerf TM, Ward AJW (2015) The influence of nutritional state on individual and group movement behaviour in shoals of crimson-spotted rainbowfish (Melanotaenia duboulayi). Behav Ecol Sociobiol 69:1713–1722
Heczko EJ, Seghers BH (1981) Effects of alarm substance on schooling in the common shiner (Notropis cornutus, Cyprinidae). Environ Biol Fish 6:25–29
Hesse S, Anaya-Rojas JM, Frommen JG, Thünken T (2015a) Kinship reinforces cooperative predator inspection in a cichlid fish. J Evol Biol 28:2088–2096
Hesse S, Anaya-Rojas JM, Frommen JG, Thünken T (2015b) Social deprivation affects cooperative predator inspection in a cichlid fish. R Soc Open Sci 2:140451
Kasumyan AO, Sidorov SS (2010) The effect of starvation on taste preferences and testing behavior of food items in the carp Cyprinus carpio. J Ichthyol 50:330–341
Killen SS, Marras S, McKenzie DJ (2011) Fuel, fasting, fear: routine metabolic rate and food deprivation exert synergistic effects on risk-taking in individual juvenile European sea bass. J Anim Ecol 80:1024–1033
Killen SS, Marras S, McKenzie DJ (2014) Fast growers sprint slower: effects of food deprivation and re-feeding on sprint swimming performance in individual juvenile European sea bass. J Exp Biol 217:859–865
Killen SS, Fu C, Wu QY, Wang YY, Fu SJ (2016) The relationship between metabolic rate and sociability is altered by food deprivation. Funct Ecol 30:1358–1365
Laakkonen MVM (2006) The effects of long-term predator exposure on body composition and condition of young Arctic charr (Salvelinus alpinus). Ann Zool Fenn 43:263–270
Lehtiniemi M (2005) Swim or hide: predator cues cause species specific reactions in young fish larvae. J Fish Biol 66:1285–1299
Lima SL (1998a) Nonlethal effects in the ecology of predator–prey interactions. Bioscience 48:25–48
Lima SL (1998b) Stress and decision making under the risk of predation: recent developments from behavioral, reproductive, and ecological perspectives. Adv Stud Behav 27:215–290
Lima SL, Dill LM (1990) Behavioral decisions made under the risk of predation: a review and prospectus. Can J Zool 68:619–640
Lindén E (2005) The lethal and sublethal effects of the aquatic macrophyte Myriophyllum spicatum on Baltic littoral planktivores. Limnol Oceanogr 50:405–411
Liu HS, Zeng LQ, Cao ZD, Fu SJ (2016) Effects of different predator stress on vulnerability to predation and the underlying physiological and behavioral mechanisms of this vulnerability in juvenile qingbo (Spinibarbus sinensis). Acta Ecol Sin 36:85–90
Lönnstedt OM, McCormick MI, Meekan MJ, Ferrari MCO, Chivers DP (2012) Learn and live: predator experience and feeding history determines prey behaviour and survival. Proc Biol Sci 279:2091–2098
Magurran AE (1990) The inheritance and development of minnow anti-predator behavior. Anim Behav 39(5):834–842
Miller N, Gerlai R (2012) Automated tracking of zebrafish shoals and the analysis of shoaling behavior. Zebrafish protocols for neurobehavioral research. Humana, New York, pp 217–230
Morgan M (1988) The influence of hunger, shoal size and predator presence on foraging in bluntnose minnows. Anim Behav 36:1317–1322
O’Connor CM, Reddon AR, Odetunte A, Jindal S, Balshine S (2015) Social cichlid fish change behaviour in response to a visual predator stimulus, but not the odour of damaged conspecifics. Behav Process 121:221–229
Pang X, Fu SJ, Cao ZD, Zhang YG (2016a) The effects of fasting and acclimation temperature on the resting metabolism and swimming performance in qingbo (Spinnibarbus sinensis). Acta Ecol Sin 36:1854–1860
Pang X, Fu SJ, Li XM, Zhang YG (2016b) The effects of starvation and re-feeding on growth and swimming performance of juvenile black carp (Mylopharyngodon piceus). Fish Physiol Biochem 42:1203–1212
Pérez-Escudero A, Vicente-Page J, Hinz RC, Arganda S, De Polavieja GG (2014) idTracker: tracking individuals in a group by automatic identification of unmarked animals. Nat Methods 11:743–748
Pitcher T (1991) Who dares, wins: the function and evolution of predator inspection behaviour in shoaling fish. Neth J Zool 42:371–391
Poulsen SB, Svendsen JC, Jensen LF, Schulz C, Jäger-Kleinicke T, Schwarten H (2010) Effects of food deprivation on refuge use and dispersal in juvenile North Sea houting Coregonus oxyrinchus under experimental conditions. J Fish Biol 77:1702–1708
Qin YL, Peng-Han LY, Fu SJ (2016) Effects of food deprivation on fast-start swimming and predator–prey interaction between a predator and prey fish species. Chin J Ecol 35:2429–2434
Seghers BH (1974) Schooling behavior in the guppy (Poecilia reticulata): an evolutionary response to predation. Evolution 28:486–489
Sih A, Wooster DE (1994) Prey behaviour, prey dispersal, and predator impacts on stream prey. Ecology 75:1199–1207
Sogard SM, Olla BL (1996) Food deprivation affects vertical distribution and activity of a marine fish in a thermal gradient: potential energy-conserving mechanisms. Mar Ecol Prog Ser 133:43–55
Sogard SM, Olla BL (1997) The influence of hunger and predation risk on group cohesion in a pelagic fish, walleye pollock Theragra chalcogramma. Environ Biol Fish 50:405–413
Spiegel O, Harel R, Getz WM, Nathan R (2013) Mixed strategies of griffon vultures’ (Gyps fulvus) response to food deprivation lead to a hump-shaped movement pattern. Mov Ecol 1:1–12
Stein RA, Magnuson JJ (1976) Behavioral response of crayfish to a fish predator. Ecology 57:751–761
Steiner U, Pfeiffer T (2007) Optimizing time and resource allocation trade-offs for investment into morphological and behavioral defense. Am Nat 169:118–129
Tanaka H, Frommen J, Takahashi T, Kohda M (2016) Predation risk promotes delayed dispersal in the cooperatively breeding cichlid Neolamprologus obscures. Anim Behav 117:51–58
Tang Z, Huang Q, Wu H, Kuang L, Fu S (2017a) The behavioral response of prey fish to predators: the role of predator size. PeerJ 5:e3222
Tang ZH, Wu H, Huang Q, Kuang L, Fu SJ (2017b) The shoaling behavior of two cyprinid species in conspecific and heterospecific groups. PeerJ 5:e3397
Trimpop RM (1994) The psychology of risk taking behavior. Adv Psychol 107:416
Utne ACW, Aksnes DL, Giske J (1993) Food, predation risk and shelter: an experimental study on the distribution of adult two-spotted goby: Gobiusculus flavescens (Fabricius). J Exp Mar Biol Ecol 166:203–216
Wahl DH, Einfalt LM, Wojcieszak DB (2012) Effect of experience with predators on the behavior and survival of muskellunge and tiger muskellunge. Tran Am Fish Soc 141:139–146
Wu H, Tang ZH, Huang Q, Kuang L, Fu SJ (2017) Effect of body size variation of group members on shoal behavior of two cyprinids preferring different habitats. Acta Hydrobiol Sin 41:552–559
Zeng LQ, Peng Han LY, Wang JW, Pang X, Cao ZD, Fu SJ (2014) The effects of food derivation on individual variation and repeatability in swimming performance of juvenile southern catfish (Silurus Meridionalis Chen). Acta Hydrobiol Sin 38:883–890
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Funding
This study was funded by National Science Foundation of China (NSFC 31670418) and Chongqing Postgraduate Scientific Research and Innovation Project (CYS17183).
Conflict of interest
The authors declare that they have no conflicts of interest.
Ethical approval
This study complied with the current law of the country in which it was performed and was approved by the Animal Care and Use Committee of the Key Laboratory of Animal Biology of Chongqing (permit number Zhao-20151010-01). The study was performed in strict accordance with the recommendations in the Guide for the Care and Use of Animals at the Key Laboratory of Animal Biology of Chongqing, China. All applicable international, national and/or institutional guidelines for the care and use of animals were followed.
Electronic supplementary material
Below is the link to the electronic supplementary material.
About this article
Cite this article
Tang, ZH., Wu, Q. & Fu, SJ. Inspection behaviour and inter-individual cooperation in juvenile qingbo: the effects of prior predator exposure and food deprivation. J Ethol 36, 181–190 (2018). https://doi.org/10.1007/s10164-018-0550-3
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10164-018-0550-3