Chemistry Reference
In-Depth Information
José Teixeira Filho
Faculty of Agricultural Engineering, State University of Campinas (UNICAMP, Brazil),
Cidade Universitária Zeferino Vaz, Campinas-SP, Brazil
6. References
[1]
Anderson M.G., Burt T.P. Hydrological Forecasting.
John Wiley and Sons, 1985.
[2]
Barnard H.R., Ryan M.G. A test of the hydraulic limitation hypothesis in fast-growing
Eucalyptus saligna.
Plant Cell Environ.
2003;
v.26, 1235-1245.
[3]
Barrett D.J., Hatton T.J., Ash J.E., Ball M.C. Transpiration by trees from contrasting
forest types. Aust. J. Bot. 1996; v. 44, 249-263.
[4]
Burgess S.S.O., Dawson T.E. Predicting the limits to tree height using statistical
regressions of leaf traits. New Phytologist 2007; v.311, 1-11.
[5]
Binkley D., Stape J.L., Ryan M.G., Barnard H.R., Fownes J. Age-related decline in forest
ecosystem growth: an individual-tree, stand-structure hypothesis. Ecosystems 2002; v.5,
58-67.
[6]
Calder I.R., Wright I.R., Murdiyarso D. A study of evapotranspiration from tropical rain
forest - West Java. J. Hydrol. 1986; v.89, 13-31,
[7]
Day M.E., Greenwood M.G., Diaz C. Age and size-relates trends in woody plant shoot
developement: regulatory pathways and evidence for genetic control. Tree Physiol.
2002; v.22, 507-513,
[8]
Domec J.C., Gartner B.L. Cavitation and water storage capacity in bole xylem segments
of mature and young Douglas-fir trees. Trees 2011; v.15, 204-214.
[9]
Embrapa. Sistema Brasileiro de Classificação de solos. Centro Nacional de Pesquisa de
Solos; 1999.
[10]
Forrester D.I., Collopy J.J., Morris J.D. Transpiration along an age series of
Eucalyptus
globulus
plantations in southeastern Australia. Forest Ecol. Manag. 2009;
doi:10.1016/j.foreco.2009.04.023.
[11]
Friend, A.D. Use of a model of photosynthesis and leaf microenvironment to predict
optimal stomatal conductance and leaf nitrogen partitioning. Plant Cell Environ.1991;
v.14, n.6, 895-905.
[12]
Gholz H.L., Lima W.P. The ecophysiological basis for productivity in the tropics. In.:
Nambiar E.K.S., Brown A.G. (Eds.) Management of soil, nutrients and water in tropical
plantation forests. ACIAR Monograph; 1997. 213-246.
[13]
Hewlett J.D. Principles of forest hydrology. University of Georgia Press; 1982.
[14]
Hinckley, T.M.; Richter, H.; Schulte, P.J. Water relations. In.: Raghavendra A.S. (ed)
Physiology of trees. New York: John Wiley Sons; 1991. 137-162.
[15]
Hubbard R.M., Ryan M.G., Stiller V., Sperry J.S. Stomatal conductance and
photosynthesis vary linearly with plant hydraulic conductance in ponderosa pine. Plant
Cell Environ. 2001.; v.24, 113-121.
[16]
IPT - Instituto de Pesquisas Tecnológicas de São Paulo. Mapa geomorfológico do Estado
de São Paulo. São Paulo, 1981.
