Nest predation is a widespread demographic and evolutionary force in avian reproduction, but few studies have considered the circumstances under which birds might invest in the construction of safe nests. We examined this question using a stochastic simulation model based on a basic passerine breeding season. Nest safety functions were used to translate time invested in nest building into an increase in daily nest survival; that increase could be rapid, requiring only a few days to achieve a safe nest, or slow, taking many days to do so. The maximum achievable safety differed across nest safety functions. Given a limited length to the breeding season, a greater time investment in nest safety detracts from the time available for re-nesting following successful or unsuccessful nesting attempts. In many circumstances, the best option is a quick-build 'minimal' nest that provides adequate support for young, but little additional safety from attacks. This is especially true for scenarios that allow for multiple nesting attempts across a season. However, relatively safe nests that can be built fairly quickly are uniformly favored options. Safe, long-build nests are favored only when they provide a great deal of safety over other nest-building options, but greater safety alone is not sufficient for such investment. Simulations allowing only a single nesting attempt generally favor a greater investment in nest safety. Parental survival is another important factor in nest investment. Increased danger to the parent during nest building strongly favors a low investment in nests. However, substantial investment in a safe nest is favored when that safety extends to the incubating parent. Our results provide some insight into the prevalence of seemingly unsafe, open-cup nests across the bird world, but the range of nest types that could potentially be built by a given species is an open question.

• 出版日期2016-12