05236naa a2201261 a 450000100080000000500110000800800410001902400540006010000280011424501320014226000090027450000180028352018060030165000170210765000110212465000230213565000120215865000230217065000250219365000120221865000130223065000160224365000270225970000280228670000140231470000190232870000220234770000210236970000170239070000200240770000190242770000190244670000180246570000200248370000170250370000180252070000180253870000240255670000200258070000190260070000180261970000200263770000200265770000200267770000200269770000160271770000280273370000120276170000230277370000230279670000240281970000200284370000160286370000210287970000250290070000240292570000190294970000230296870000230299170000190301470000190303370000210305270000160307370000190308970000160310870000170312470000170314170000150315870000250317370000230319870000140322170000200323570000230325570000200327870000180329870000220331670000200333870000170335870000220337570000170339770000200341470000200343470000200345470000160347470000170349070000210350770000210352870000210354970000190357070000190358970000140360870000240362270000200364670000180366670000180368470000180370270000180372070000220373870000200376070000200378070000170380070000290381770000190384670000170386570000220388270000150390477300550391921716782025-01-16       2025    bl uuuu     u00u1 u    #d7 ahttps://doi.org/10.1016/j.biocon.2025.1109722DOI1 aLIÉVANO-LATORRE, L. F.  aAddressing the urgent climate and biodiversity crisis through strategic ecosystem restoration in Brazil.h[electronic resource]  c2025  aOnline First.  aAbstract: Ecosystem restoration is crucial worldwide to address environmental challenges. Many countries, including Brazil, have committed to restoring degraded landscapes at national and international levels. Brazil aims to restore twelve million hectares of degraded areas by 2030, which requires strategic decision-making to allocate resources effectively and balance biodiversity gains with societal benefits. Our modeling approach uses extensive biodiversity field data to identify priority areas for restoration across Brazil's diverse phytogeographic domains. By focusing on expanding native species habitats and enhancing connectivity, we aim to maximize ecological returns. Precisely, we pinpoint areas within each Brazilian phytogeographic domain with the greatest potential for habitat enhancement, including the Amazon's arc of deforestation, central Cerrado, the limits of Caatinga, Pampa, and Pantanal, and the coastal areas of the Atlantic Forest. Restoring 30 % of these areas—approximately 76 million hectares—could significantly benefit 11,028 species by increasing available habitat by up to 10 % and improving landscape functional connectivity by 60 %. Moreover, this restoration effort would capture up to 9.8 million tons of atmospheric carbon, contributing to global climate goals. As Brazil strives to meet national and international targets, we also advocate for economic incentives to support restoration practices within each phytogeographic domain. Integrating prioritization modeling into decision-making ensures optimal biodiversity and carbon stock outcomes to guide more effective restoration efforts. This comprehensive strategy helps advance restoration goals and underscores the vital role of science-based planning in safeguarding our planet's natural heritage.  aBiodiversity  aCarbon  aConservation areas  aEcology  aEcosystem services  aSpatial distribution  aCarbono  aEcologia  aEcossistema  aEquilíbrio Ecológico1 aALMEIDA-ROCHA, J. M. de1 aAKAMA, A.1 aALMEIDA, H. A.1 aANDRADE, R. T. G.1 aANJOS, M. R. dos1 aANTONINI, Y.1 aBAHIA, T. de O.1 aBARBOSA, F. R.1 aBARBOSA, R. I.1 aBARROS, C. F.1 aBERGALLO, H. G.1 aBRABO, L. S.1 aCAMILO, A. R.1 aCAPELLÃO, R.1 aCARPANEDO, R. de S.1 aCASTILHO, C. V.1 aCAVALHEIRO, L.1 aCERQUEIRA, R.1 aCORDEIRO, C. L.1 aCÓRDOVA, M. O.1 aCROUZEILLES, R.1 aCUNHA, C. N. da1 aDESBIEZ, A.1 aDRESCHLER-SANTOS, E. R.1 aDIB, V.1 aDORIA, C. R. da C.1 aDRUMMOND, L. de O.1 aFERNANDES, G. W. A.1 aFERREIRA, V. L.1 aFISCHER, E.1 aFRANCI, L. de C.1 aGONÇALVES, S. R. A.1 aGRELLE, C. E. de V.1 aGUILHON, G. N.1 aHOELTGEBAUM, M. P.1 aIGUATEMY, M. de A.1 aIRIBARREM, Á.1 aJAKOVAC, C. C.1 aJUNQUEIRA, A. B.1 aKOROIVA, R.1 aKRIEGER, J. M.1 aLACERDA, E.1 aLATAWIEC, A.1 aLOPES, A. M.1 aLUZ, J. L.1 aMACHADO, T. L. da S.1 aMAIOLI-AZEVEDO, V.1 aMANES, S.1 aMANZATTO, A. G.1 aMATOS, A. C. L. de1 aMONTEIRO, L. M.1 aMUANIS, M. C.1 aNASCIMENTO, M. T.1 aOLIVEIRA, S. N.1 aNIEMEYER, J.1 aNORONHA, J. da C.1 aNUNES, A. P.1 aOLIVEIRA, A. E.1 aOLIVEIRA, J. C.1 aOLIVEIRA, L. G.1 aPANSINI, S.1 aPENHACEK, M.1 aPERDIZ, R. de O.1 aPODGAISKI, L. R.1 aPONTES, A. R. M.1 aRABELLO, A. M.1 aRIBEIRO, D. B.1 aROCHA, D.1 aRODRIGUES, D. de J.1 aROQUE, F. de O.1 aROSADO, B. H.1 aSANTOS, C. F.1 aSANTOS, F. C.1 aSANTOS, P. M.1 aSCARAMUZZA, C. A.1 aSILVA, A. C. L.1 aSILVEIRA, B. R.1 aSILVEIRA, M.1 aSILVEIRA, M. A. P. de A.1 aSTRASSBURG, B.1 aTOMAS, W. M.1 aWILLMER, J. N. G.1 aLOYOLA, R.  tBiological Conservationgv.302, 110972, feb. 2025.