The Water Use Efficiency of Tropical Dry-Forest Trees
Brienen, R.J.W., Wanek, W. and Hietz, P. 2011. Stable carbon isotopes in tree rings indicate improved water use efficiency and drought responses of a tropical dry forest tree species. Trees 25: 103-113.
Noting that "increases in Wi have been observed in short-term experiments of tree responses to elevated CO2 (Norby et al., 1999), and over long-time periods using records of δ13C in tree rings that reflect the global increase in atmospheric CO2 (Feng, 1999; Waterhouse et al., 2004)," Brienen et al. (2011) "analyzed carbon isotope ratios over the last 40 years in tree rings of Mimosa acantholoba, a tropical dry forest pioneer species," in a study conducted "on the Pacific slope of the isthmus of Tehuantepec, close to the village of Nizanda in the state of Oaxaca, South Mexico (16°39'N, 95°00'W)."
The three researchers, representing Austria, Mexico and the United Kingdom, report that the dry-forest tropical M. acantholoba trees "responded strongly to the increase in atmospheric CO2 over the last four decades," as their "Wi increased dramatically by 40%."
Brienen et al. say their results show that "δ13C in tree rings is a promising tool to evaluate long-term responses of tropical trees to increasing CO2," and that such studies "may be used to test DGVMs [dynamic global vegetation models] which predict large-scale die-off of the Amazon rainforest (Betts et al., 2004)," but which they say "remain highly simplistic due to lack of data and understanding of key processes."
Betts, R., Cox, P.M., Collins, M., Harris, P.P., Huntingford, C. and Jones, C.D. 2004. The role of ecosystem-atmosphere interactions in simulated Amazonian precipitation decrease and forest dieback under global climate warming. Theoretical and Applied Climatology 78: 157-175.
Feng, X.H. 1999. Trends in intrinsic water-use efficiency of natural trees for the past 100-200 years: a response to atmospheric CO2 concentration. Geochimica et Cosmochimica Acta 63: 1891-1903.
Nock, C.A., Baker, P.J., Wanek, W., Leis, A., Grabner, M. Bunyavejchewin, S. and Hietz, P. 2010. Long-term increases in intrinsic water-use efficiency do not lead to increased stem growth in a tropical monsoon forest in western Thailand. Global Change Biology 17: 1049-1063.
Norby, R.J., Wullschleger, S.D., Gunderson, C.A., Johnson, D.W. and Ceulemans, R. 1999. Tree responses to rising CO2 in field experiments: implications for the future forest. Plant, Cell and Environment 22: 683-714.
Saurer, M., Siegwolf, R.T.W. and Schweingruber, F.H. 2004. Carbon isotope discrimination indicates improving water-use efficiency of trees in northern Eurasia over the last 100 years. Global Change Biology 10: 2109-2120.
Waterhouse, J.S., Switsur, V.R., Barker, A.C., Carter, A.H.C., Hemming, D.L., Loader, N.J. and Robertson, I. 2004. Northern European trees show a progressively diminishing response to increasing atmospheric carbon dioxide concentrations. Quaternary Science Reviews 23: 803-810.