Integrating paleoecology and phylogeography reveals congruent bioclimatic regions in the Brazilian Atlantic forest

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Integrating paleoecology and phylogeography reveals congruent bioclimatic regions in the Brazilian Atlantic forest
Marie-Pierre Ledru, A. C. Carnaval, C. Y. Miyaki

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Marie-Pierre Ledru the Atlantic forest is the second most biodiverse domain in Central and south America after the Amazonian rainforest. Its distribution today has been strongly reduced to less than 16% of its original cover because of intensive deforestation. the Atlantic forest covers a large region along Brazil's 4000 km coast, from the Equator to 30°s (Fig. 1), and consequently is subject to a wide range of climatic conditions. these geographical characteristics, combined with a wide altitudinal range, resulted in one of the highest degrees of species richness and rates of endemism on the planet (Joly et al. 2014).
Three paleoclimatic regions Modern regional climatic behaviors and past forest expansion and regression phases revealed by fossil pollen records (Ledru et al. 2016) define three main areas within the Atlantic forest: North Atlantic Forest (NAF) between 5° and 15°s, Central Atlantic Forest (CAF) between 15° and 23°s and south Atlantic Forest (sAF) from 23° to 30°s. NAF has a moist, cool, semi-deciduous forest restricted to coastal zones, lowland gallery forest and mountaintops. An evergreen forest was well developed during the late glacial instead of a deciduous forest (Fig. 2). CAF is composed of coastal forest patches of mainly dense evergreen forest, whereas more inland areas are occupied by semideciduous forests. the evolution of the CAF shows several phases of expansion and regression during the past 17 ka, which are linked to the precession cycle of the insolation (Ledru et al. 2009). sAF hosts Araucaria or mixed evergreen forest characterized by the presence of species adapted to cooler and wetter climates. the sAF expanded into the central region replacing the semideciduous forest during the late glacial, and since 3 ka is progressively expanding to the south (Fig. 2). this observation is in agreement with model predictions (salazar et al. 2007). two fossil pollen records from an interior northern site (Caço Lake, currently not forested) and from the central region (Colônia, currently forested) indicate that the expansion of the Atlantic forest cover was out-of-phase between these two regionsthe northern site witnessed forest expansion from 17 ka to the beginning of the Holocene, while the central forest cover retracted (Ledru et al. 2016 For instance, when a population becomes isolated, the succession of the generations within this population will generate new DNA imprints that will differ from the DNA imprints of the remote populations. On the other hand, populations restricted to northern, inland, highland sites must have been exposed to forest contraction over the same period and hence show genetic evidence of strong population bottlenecks that will reduce the diversity. NAF coastal populations, presumably exposed to permanently humid conditions throughout the last 21 ka (Carnaval and Moritz 2008;Carnaval et al. 2009), are expected to show high levels of genetic diversity due to climatic stability. Genetic data from coastal populations in the sAF confirm this hypothesis and show much lower levels of genetic diversity relative to NAF coastal populations, tied to genetic signatures of expansion and colonization that date post LGM. this pattern is detected in a vast array of forest taxa, including frogs, lizards, birds, bats, and plants (e.g. Cabanne et al. 2008;Carnaval et al. 2009;Fitzpatrick et al. 2009;Martins et al 2009;Ribeiro et al. 2010; Fig. 2). Post-3 ka colonization of the sAF is also seen in frogs and plants (Ramos et al. 2009;Carnaval et al. 2009). In turn, lineages restricted to mountaintop Holocene forest refugia in inland northeastern Brazil are narrowly endemic and show signatures of recent bottlenecks, presenting low levels of diversity (e.g. Ramos et al. 2009).
Climatic and diversity barriers these asynchronous patterns of forest movements over the last 17 ka were tracked by various forest organisms, and largely determined contemporary spatial patterns of genetic diversity. shift in monsoon activity, from north to south and south to north, driven by the precession cycles, led to significant differences in precipitation patterns (Cruz et al. 2005) and, thus, in the tempo and mode of rainforest contraction and expansion in lowland and mid-altitude tropical areas. this mechanism must have triggered strikingly different demographic trajectories between northern, central and southern species pools within forests distributed among this gradient. such tracking of forested environments by whole tropical assemblages or species pools should largely explain contemporary patterns of genetic diversity in these tropical regions. In the Brazilian Atlantic forest, proposed forest refugia and areas of high genetic diversity and endemism match areas within the sea-saw monsoonal sector that were permanently moist over the last 17 ka. the three bioclimatic regions evidenced by phylogeography are located in the three paleoecological and paleoclimatic regions revealed by pollen records and related to past fluctuant monsoon activity at these latitudes.
the use of plant fossil information and genetic data from forest species to illustrate past climatic shifts and their associated responses from the fauna and flora of eastern south America question the timescale and pace of diversification, the role of refugia in tropical forest dynamics and the specieslevel tolerances to climate change.