La cuenca del Río Usumacinta desde la perspectiva del Cambio Climático - page 145

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La cuenca del río Usumacinta
desde la perspectiva del cambio climático
Lobell, D. B., Hammer, G. L., McLean, G., Messina, C., Roberts,
M.J., & Schlenker, W. (2013). “The critical role of extreme
heat for maize production in the United States”,
Nature
Climate Change
, 3(5): 497-501.
Lobell, D. B., Bänziger, M., Magorokosho, C., & Vivek, B. (2011).
“Nonlinear heat effects on African maize as evidenced
by historical yield trials”,
Nature Clim. Change
, 1: 42-45.
Lobell, D. B., & Burke, M. B. (2010). “On the use of statistical
models to predict crop yield responses to climate
change”,
Agric. Forest Meterol.
, 150: 1443-1452.
Maestri, E., Klueva, N., Perrotta, C., Gulli, M., Nguyen, T., &
Marmiroli, N. (2002). “Molecular genetics of heat tolerance
and heat shock proteins in cereals”,
Journal of Plant
Molecular Biology,
48: 667-682.
Midmore, D. J., Cartwright, P. M., & Fischer, R. A. (1984). “Wheat
in tropical environments. II. Growth and grain yield”,
Field
Crops Res
., (8): 207-227.
Monjardino, P., Smith, A. G., & Jones, R .L. (2005). “Heat stress
effects on protein accumulation of maize endosperm”,
Crop Sci
., 45: 1203-1210.
Neild, R. E., Wilhite, D. A., & Hubbard, K. G. (1988).
Cropstatus -
A computer program to assess the effects of
seasonal weather changes on Nebraska´s agriculture,
Univ. of
Nebraska, Drought Mitigation Center Faculty Publications,
Paper 61, 351-366. Texto completo de acceso libre, URL:
http//:digitalcommons.unl.edu/droughtfacpub/61. Última
consulta: 20 de abril, 2017.
Neild, R. E. (1980). G80-526.
The effect of weather on corn:
preseason precipitation and yield of unirrigated corn.
Historical Materials from University of Nebraska-Lincoln
Extension, Paper 712. Texto completo de acceso libre,
URL:
.
cgi?article=1709&context=extensionhist. Última consulta
el 20 de diciembre de 2016.
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