01879naa a2200313 a 450000100080000000500110000800800410001902400540006010000250011424501920013926000090033152008780034065000190121865000220123765000250125970000160128470000180130070000170131870000170133570000130135270000200136570000160138570000150140170000150141670000130143170000160144470000210146077300840148120672732021-11-10       2017    bl uuuu     u00u1 u    #d7 ahttps://doi.org/10.1016/j.cosust.2017.01.0162DOI1 aSANDE, M. T. van der  aThe integration of empirical, remote sensing and modelling approaches enhances insight in the role of biodiversity in climate change mitigation by tropical forests.h[electronic resource]  c2017  aTropical forests store and sequester high amounts of carbon and are the most diverse terrestrial ecosystem. A complete understanding of the relationship between biodiversity and carbon storage and sequestration across spatiotemporal scales relevant for climate change mitigation needs three approaches: empirical, remote sensing and ecosystem modelling. We review individual approaches and show that biodiversity has short-term and long-term benefits across spatial scales. We argue that enhanced understanding is obtained by combining approaches and, especially, integrating approaches through using 'boundary objects' that can be understood and measured by all approaches, such as diversity of leaf traits of the upper canopy. This will lead to better understanding of biodiversity effects on climate change mitigation, which is crucial for making sound policy decisions.  aBiodiversidade  aFloresta Tropical  aSensoriamento Remoto1 aPOORTER, L.1 aBALVANERA, P.1 aKOOISTRA, L.1 aTHONICKE, K.1 aBOIT, A.1 aDUTRIEUX, L. P.1 aEQUIHUA, J.1 aGERARD, F.1 aHEROLD, M.1 aKOLB, M.1 aSIMÕES, M.1 aPEÑA-CLAROS, M.  tCurrent Opinion in Environmental Sustainabilitygv. 26/27, p. 69-76, Jun. 2017.