Reject the odd egg: egg recognition mechanisms in parrotbills

Studies of the behavior of animals when confronted with tasks differing in complexity can improve our understanding of animal cognition and learning mechanisms. Coevolutionary interactions between brood parasites and their hosts provide an ideal opportunity for studying animal cognition because egg recognition and rejection are some of the most important adaptations evolved in hosts to counter brood parasitism. The cognitive mechanisms hosts employ in egg recognition have received substantial interest, with 2 main hypotheses being put forward: 1) true egg recognition based on a knowledge of the hosts’ own egg appearance (template that is innate and/or learned) and 2) discordancy by which individuals simply recognize eggs that are in minority as parasitic. These hypotheses are not necessarily mutually exclusive. We conducted egg experiments in the ashy-throated parrotbill (Paradoxornis alphonsianus), a common cuckoo (Cuculus canorus) host that lays immaculate, polymorphic eggs, and we obtained support for both hypotheses. Parrotbills use the presence of own eggs as a cue for recognizing parasitic eggs, supporting true recognition, but without the presence of own eggs as a template they failed to recognize the parasitic egg. Furthermore, some individuals erroneously rejected their own eggs when in minority, supporting recognition by discordancy. Such a combination of cognitive mechanisms that involves true recognition and discordancy in egg recognition in a single population has as far as we can tell never previously been described.

[1]  Martin Stevens,et al.  Repeated targeting of the same hosts by a brood parasite compromises host egg rejection , 2013, Nature Communications.

[2]  Yan Cai,et al.  Eggs mimicry of Common Cuckoo (Cuculus canorus) utilizing Ashy-throated Parrotbill (Paradoxornis alphonsianus) host , 2013 .

[3]  Z. Barta,et al.  Simultaneous viewing of own and parasitic eggs is not required for egg rejection by a cuckoo host , 2013 .

[4]  A. MØller,et al.  Modelling the maintenance of egg polymorphism in avian brood parasites and their hosts , 2012, Journal of evolutionary biology.

[5]  A. Møller,et al.  Sex roles in egg recognition and egg polymorphism in avian brood parasitism , 2012 .

[6]  T. Székely,et al.  Discordancy or template-based recognition? Dissecting the cognitive basis of the rejection of foreign eggs in hosts of avian brood parasites , 2010, Journal of Experimental Biology.

[7]  A. Møller,et al.  Coevolution in Action: Disruptive Selection on Egg Colour in an Avian Brood Parasite and Its Host , 2010, PloS one.

[8]  M. Hauber,et al.  Increased host tolerance of multiple cuckoo eggs leads to higher fledging success of the brood parasite , 2009, Animal Behaviour.

[9]  J. K. Victoria CLUTCH CHARACTERISTICS AND EGG DISCRIMINATIVE ABILITY OF THE AFRICAN VILLAGE WEAVERBIRD PLOCEUS CUCULLATUS , 2008 .

[10]  E. Røskaft,et al.  THE IMPORTANCE OF CLUTCH CHARACTERISTICS AND LEARNING FOR ANTIPARASITE ADAPTATIONS IN HOSTS OF AVIAN BROOD PARASITES , 2007, Evolution; international journal of organic evolution.

[11]  B. Lyon Mechanism of egg recognition in defenses against conspecific brood parasitism: American coots (Fulica americana) know their own eggs , 2006, Behavioral Ecology and Sociobiology.

[12]  D. Lahti,et al.  How precise is egg discrimination in weaverbirds? , 2002, Animal Behaviour.

[13]  P. Sherman,et al.  Self-referent phenotype matching: theoretical considerations and empirical evidence , 2001, Trends in Neurosciences.

[14]  K. Marchetti Egg rejection in a passerine bird: size does matter , 2000, Animal Behaviour.

[15]  S. Sealy,et al.  Low frequency of observed cowbird parasitism on eastern kingbirds: host rejection, effective nest defense, or parasite avoidance? , 1995 .

[16]  A. Zahavi,et al.  Constraints on egg discrimination and cuckoo-host co-evolution , 1995, Animal Behaviour.

[17]  A. Moksnes Egg recognition in chaffinches and bramblings , 1992, Animal Behaviour.

[18]  A. Moksnes,et al.  Behavioural Responses of Potential Hosts Towards Artificial Cuckoo Eggs and Dummies , 1991 .

[19]  N. Davies,et al.  AN EXPERIMENTAL STUDY OF CO-EVOLUTION BETWEEN THE CUCKOO, CUCULUS CANORUS, AND ITS HOSTS. I. HOST EGG DISCRIMINATION , 1989 .

[20]  S. I. Rothstein Mechanisms of avian egg-recognition: Do birds know their own eggs? , 1975, Animal Behaviour.

[21]  S. I. Rothstein,et al.  Mechanisms of Avian Egg Recognition: Possible Learned and Innate Factors , 1974 .