Version 2 2023-03-14, 02:46Version 2 2023-03-14, 02:46
Version 1 2022-03-02, 00:49Version 1 2022-03-02, 00:49
thesis
posted on 2023-03-14, 02:46authored byMark E. Hauber
To claim and understand the uniqueness of any physical, chemical, or
biological system, it is necessary to use the same set of approaches,
tools, and analyses to probe other systems. Accordingly, to assess
whether and how people are unique in their perceptual, cognitive, and
behavioural skills and algorithms when making decisions, a parallel set
of studies is required to examine how human and non-human animals would
respond. This thesis provides a structured experimental analysis of each
of the recognition system’s components; perception, cognition, and
response; in the context of avian brood parasitism. The study species
are several potential hosts of brood parasitic birds but an explicit aim
of this work to provide a reference for future studies on how to probe
the perceptual, cognitive, and response traits in
non-verbal experimental paradigms, including non-hosts and working with
people. Hosts of avian brood parasites represent a powerful experimental
system in which to study well defined and evolutionarily relevant
behavioural decision: brood parasitic birds lay their eggs in other
nests and the costs of parental care and reduced reproductive success
are borne by the hosts. Hosts, in turn, may reject costly parasitism by
ejecting foreign progeny or deserting parasitized nests. The cues
used by hosts to perceive, recognize, discriminate, and respond to
foreign eggs have been well studied in a variety of avian host-parasite
systems. How, in turn, the hosts’ sensory and cognitive processes
receive, sort through, and determine the behavioural responses to these
cues, remains mostly unclear.
The main chapters of the thesis set out to describe the results of two
unpublished studies on hosts’ recognition systems. The first study uses
artificial colour manipulation of hosts’ own eggs to determine whether
specific colours are perceived similarly to trigger rejection
behaviours, irrespective of the presence of hosts’ own eggs in the nest.
The results suggest that foreign egg colours are perceived
similarly and rejection is triggered through comparisons with internal
filters, or recognition templates, even when hosts’ own eggs are not
present. The second study also uses artificial colour manipulation to
assess the hosts’ specific behaviours to foreign eggs and reveals that
relative patterns of egg ejection and nest desertion are indicative
of hosts’ responses to foreign eggs.
These results provide detailed new information for our understanding of
parasitic birds’ impacts on hosts’ perceptual processes. It is also the
aim of this thesis that these studies may also be used as starting
points towards a sample set of methodological and analytical tools to
determine whether and how other species, including people, may use
similar perceptual, cognitive, and behavioural decision rules to detect
foreign items in odd-egg-out paradigms.