Abstract
Islands are well-known as particular and vulnerable ecosystems with evolutionary histories, environmental characteristics, and original communities different from those of continents. On the contrary, urban environments are recent, artificial, and structurally similar among distant regions. To assess the relative importance of regional and local processes on urban biota, we chose two urban environments, i.e., one on the mainland and another on an island in the same ecoregion. We asked whether the urbanization process affects the avian biodiversity of the ISLAND in the same way as in the continent. We defined an urban gradient with three levels of building density, namely, patches of native vegetation (remnant woodlands in the urban matrix), medium density urbanized areas that maintain vegetation along the streets and gardens, and residential areas with less vegetation cover and higher building density. In each geographical locality, we selected three sites (replicates) for each level of the urban gradient and did bird surveys. We found two times as many species in the urban landscape of the continent (69) as on the island (35), with the analogous richness decrease along the gradient in both regions. Species similarity was higher between urbanized sites of both regions compared with the similarity between woodlands and urbanized sites, showing that urban matrix filters similar species of each pool regionally. Individual species responded to urban structure in different ways. We found 32% of bird species were urban exploiters, 48% urban tolerant, and 20% urban avoiders in both regions. However, some species showed different frequencies of occurrence on the island and the continent. Species turnover contributed more than richness differences to species dissimilarity along the urban gradient on the continent. Contrarily, the nestedness component (i.e., species being a strict subset of the species at a richer site) was higher on the island. We concluded that the negative impact of highly urbanized areas on birds was stronger on the island than on the continent. Our results may help to assess the implications of beta-diversity loss, especially on islands.
Highlights
Urban development is associated with the loss of natural ecosystems and a decrease in biodiversity
Accumulation species curves show that the sampling effort worked well to catch most species on the island, but on the continent, especially in the woodland patches, and medium density (MD) zones, several species were not detected
The proportion of the double number of estimated species on the continent over island remains constant at every level of the gradient (Continent_W = 65.65 ± 4.70/Island_W = 33.15 ± 1.78, Continent_MD = 48.18 ± 6.1/Island_MD = 26.87 ± 3.30), except for high density (HD) areas, where the continent has three times more species than the island (Continent_HD = 35.02 ± 4.17/Island_HD = 13.00 ± 0.46), which reinforces the low capacity of the high building density areas on islands to maintain bird species
Summary
Urban development is associated with the loss of natural ecosystems and a decrease in biodiversity. Latin America has one of the highest urbanization rates in the world, with 79.5% of its total population living in cities, and this figure is expected to increase up to 86.2% by the year 2050 (United Nations, 2017). This fact imposes great challenges for nature conservation, as the region harbors some of the most biodiversityrich ecosystems in the world (Myers et al, 2000). General observed trends worldwide are as follows: (1) biotic richness is lower in cities than in surrounding areas and (2) specialist species (urban avoiders) are replaced by generalists (i.e., urban adapters and urban exploiters), which are able to use urban resources such as food and shelter (McKinney, 2002)
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