Climate seasonality limits carbon assimilation and storage in tropical forests

Wagner F., Hérault B., Bonnal D., Stahl C., Anderson L.O., Baker T.R., Becker G.S., Beeckman H., Boanerges Souza D., Botosso P.C., Bowman D.M.J.S., Bräuning A., Brede B., Brown F.I., Camarero J.J., Barbosa de Camargo P., Cardoso F.C.G., Alvim Carvalho F., Castro W., Koloski Chagas R., Chave J., Chidumayo E.N., Clark D.A., Capellotto Costa F.R., Couralet C., da Silva Mauricio P.H., Dalitz H., Resende de Castro V., de Freitas Milani J.E., de Oliveira E.C., de Souza Arruda L., Devineau J.L., Drew D.M., Dünisch O., Durigan G., Elifuraha E., Fedele M., Ferreira Fedele L., Figueiredo Filho A., Guimarães Finger C.A., Franco A.C., Freitas Júnior J.L., Galvão F., Gebrekirstos A., Gliniars R., de Alencastro Graça P.M.L., Griffiths A.D., Grogan J., Guan K., Homeier J., Kanieski M.R., Khoon Kho L., Koenig J., kohler S.V., Krepkowski J., Lemos-Filho J.P., Lieberman D., Lieberman M.E., Lisi C.S., Longhi Santos T., López Ayala J.L., Eijji Maeda E., Malhi Y., Maria V.R.B., Marques M.C.M., Marques R.,
2016

The seasonal climate drivers of the carbon cycle in tropical forests remain poorly known, although these forests account for more carbon assimilation and storage than any other terrestrial ecosystem. Based on a unique combination of seasonal pan-tropical data sets from 89 experimental sites (68 include aboveground wood productivity measurements and 35 litter productivity measurements), their ...

Foresterie - Considérations générales; Physiologie et biochimie végétales