The long-term monitoring of more than 50 areas of Atlantic Forest, located inside and outside the Serra do Mar State Park (PESM) between the north coast of the state of S\u00e3o Paulo and the Para\u00edba Valley, has led to advances in our understanding of the interactions between vegetation and the climate in this biome. The benefits of preserving the forest have been highlighted by various studies\u2014some still ongoing\u2014under the Biota-FAPESP Program, an initiative that involves more than 1,200 researchers and is celebrating its 20th anniversary this year. The evolution of the results in this stretch of the Atlantic Forest, which today only covers 12.5% of its original area nationwide, reflects the dynamics of the change the Biota program is undergoing.<\/p>\n
Created in March 1999 with the original objective of identifying, mapping, and analyzing species richness in the state of S\u00e3o Paulo, the program later expanded its scope, generating information that influenced public policy on conservation and restoration, and assuming partnerships and leading roles in studies examining the issue of biodiversity in the face of uncertainties caused by climate change. Biota has received almost 300 research grants from FAPESP throughout its existence, and is now celebrating its 20th year, although it was actually created 21 years ago. \u201cWe decided to celebrate now because our online journal, Biota Neotropica<\/em>, turned 20 this year,\u201d explains biologist Carlos Alfredo Joly of the University of Campinas (UNICAMP), one of the program\u2019s founders and coordinators.<\/p>\n In the program\u2019s early days, studies of the Atlantic Forest on the northern coast aimed to catalog local plant and animal species. This is an essential type of survey that has no clear end. The composition of plants and animals in the forest is not static, and there are always new species and occurrences to be described. \u201cToday we have a good knowledge of the tree flora in the Atlantic Forest, as shown in the work we published in 2012. Now we want to understand how the forest works, how its species interact, and the relationship with climate change,\u201d explains Joly. A specialist in plant ecology, the UNICAMP biologist promotes and participates in studies in the northern region of the Atlantic Forest in S\u00e3o Paulo and has been involved in the Biota program almost since the beginning.<\/p>\n More integrated studies give an idea of the scale of the environmental or ecosystem services that the vegetation silently provides to society. Science is then more able to answer questions about the influence of vegetation on rainfall and temperatures in a region (and vice versa) and its ability to slow down or accelerate climate change at a local or even regional level. A scientific article published in the journal PLOS One <\/em>in December 2019 illustrates the more systematic approach of the Biota research.<\/p>\n By carrying out simulations in areas of Atlantic Forest located at the edge of the PESM and outside the limits of the park, researchers found that deforestation of 25% of a one-hectare area raises local surface temperatures by 1 degree Celsius (\u00baC). If the entire area is cleared, temperatures rise by 4\u00baC. The study was a partnership between Biota and the FAPESP Research Program on Global Climate Change (PFPMCG). For Biota, Joly was the senior researcher. For the PFPMCG, this role fell to climatologist Humberto Ribeiro da Rocha, from the Institute of Astronomy, Geophysics, and Atmospheric Sciences (IAG) at the University of S\u00e3o Paulo (USP) and a member of the PFPMCG\u2019s management team.<\/p>\n<\/div>