posted on 2017-03-16, 03:13authored byNataly Alexandra Hidalgo Aranzamendi
Reproduction and
survival are two fundamental traits that define an individuals’ lifetime.
Life-history variation within individuals can be related to individual
differences on balancing reproduction
and survival against the constraints imposed by the physical and environmental conditions
they experience. Since individuals vary widely within and between populations
in respect to life-history traits, this variation transcends individuals, and life-history
strategies differ between species. Understanding the selective pressures that affect individuals
will offer an insight on what limits each species’ life-history strategy. Here I focus on the ecological
and social forces that affect reproduction of the cooperative breeding purple-crowned fairy-wren
Malurus coronatus, a tropical species that is located at the slow-life history end of the continuum.
Using ten years of data from individual longitudinal stories, I analyse many aspects of
reproduction: what are the environmental cues that trigger timing of breeding,
how much do these environmental variables alone or in combination with social and other ecological conditions influence
the final outcome of reproduction and what strategies do pairs use to minimise losses produced by
external factors. I demonstrate that Malurus coronatus has a fine-tuned mechanism to time breeding
cycles with rainfall and that rainfall also determines the quantitative output of
successful nest attempts.
However, means and extremes of rainfall and temperature have different antagonistic
effects that directly or indirectly decrease reproductive success, affecting reproductive
success by flooding, increased predation, reduced egg hatchability or lower offspring survival. To
overcome such losses,pairs should invest in nest defence and brood rearing, and
I test whether this could be improved as a result of long-term partnerships.
However, I found that retaining the same partner does not increase
productivity. Motivated by this lack of benefits of staying together, I
analysed if an adaptive response was to change partners (divorce) if
opportunities are available. Divorce is driven by females taking breeding
positions in higher quality territories, however this does not lead to
immediate reproductive improvements. More generally, high quality territories
(with more vegetation cover) are consistently identified as key factors associated with
increased productivity by decreasing the likelihood of nest failure and
recruiting more fledglings, which confirms previous research on this species and highlights the importance of “real estate”. All
findings in Malurus coronatus could possibly be commonplace in other tropical species that occupy
year-round territories and are exposed to similar environmental selective pressures. These
findings increase what is known for tropical species with a slow-life history
strategy, data that is currently scarce. Moreover, my research highlights some potential threats of climate change, in
which adaptive responses might not be enough to ameliorate negative impacts due to the
slow-pace of reproduction in this species. The importance of habitat quality on
reproductive success suggest that the preservation of healthy habitat would be
crucial to guarantee this species survival.