Agriculture Reference
In-Depth Information
[51]
Boiffin, J., Durr, C., Fleury, A., et al. Analysis of the variability of sugar beet (Beta
vulgaris L) growth during the early stages. I. Influence of various conditions on crop
establishment.
Agronomie
1992; 12: 515-525.
[52]
Scott, R. K., Jaggard, K. W.
Crop physiology and agronomy
. In: Cooke, D. A., Scott, R.
K., Hrsg. The Sugar Beet Crop: Springer Netherlands; 1993:179-237.
[53]
Kalra, N., Chakraborty, D., Sharma, A., et al. Effect of increasing temperature on yield
of some winter crops in northwest India.
Current Science
2008; 94: 82-88.
[54]
Freckleton, R. P., Watkinson, A. R., Webb, D. J., et al. Yield of sugar beet in relation to
weather and nutrients.
Agricultural and Forest Meteorology
1999; 93: 39-51.
[55]
Rok, F., Sašo, M. Environmental impacts of the first generation liquid biofuels
production and emerging global climate changes. In:
Journal for the theory and
aplication in mechanical engineering;
2009:537-545.
[56]
Fink, R., Medved, S. Environmental impacts of the first generation liquid biofuels
production and emerging global climate changes.
Stroj
2009; 51: 537-545.
[57]
Ridolfi, L., D'Odorico, P., Porporato, A., et al. Impact of climate variability on the
vegetation water stress.
Journal of Geophysical Research D: Atmospheres
2000; 105:
18013-18025.
[58]
Saue, T., Kadaja, J. Modelling crop yield response to precipitation redistribution on
slopes.
Biologia
2009; 64: 502-506.
[59]
Hazell, P. B. R., Pachauri, R. K. Bioenergy and agriculture: Promises and challenges.
In:
International Food Policy Research Institute (IFPRI)
; 2006:2-3.
[60]
EEA.
Estimating the environmentally compatible bioenergy potential from agriculture
.
In. Copenhagen: EEA (European Environment Agency); 2007:39-54.
[61]
Yang, H., Zhou, Y., Liu, J. Land and water requirements of biofuel and implications for
food supply and the environment in China.
Energy Policy
2009; 37: 1876-1885.
[62]
Renouf, M. A., Wegener, M. K., Nielsen, L. K. An environmental life cycle assessment
comparing Australian sugarcane with US corn and UK sugar beet as producers of
sugars for fermentation.
Biomass and Bioenergy
2008; 32: 1144-1155.
[63]
FAO.
Fertilizers use by crop
. Italy. Rome; 2006.
[64]
Powlson, D. S., Riche, A. B., Shield, I. Biofuels and other approaches for decreasing
fossil fuel emissions from agriculture.
Annals of Applied Biology
2005; 146: 193-201.
[65]
Clay, J.
World Agriculture and the Environment
. Washington DC: Island Press; 2004.
[66]
Aden, A., Ruth, M., Ibsen, K., et al. Lignocellulosic Biomass toEthanol Process Design
and Economics Utilizing Co-Current Dilute Acid Prehydrolysis and Enzymatic
Hydrolysis for Corn Stover. In. Colorado: National Renewable Energy Laboratory;
2002.
[67]
Arnold, K., Ramesohl, S., Fischedick, M., et al.
Synopsis of German and European
experience and state of the art of biofuels for transport: submitted report
. In.
Wuppertal: Wuppertal Inst. for Climate, Environment and Energy; 2005.
[68]
Gnansounou, E., Dauriat, A., Villegas, J., et al. Life cycle assessment of biofuels:
Energy and greenhouse gas balances.
Bioresource Technology
2009; 100: 4919-4930.
[69]
Mawhinney, M.
Sustainable Development: Understanding the Green Debates
: Wiley-
Blackwell; 2002.
[70]
Pothula, A. K., Igathinathane, C., Faller, T., et al. Novel front end processing method of
industrial beet juice extraction for biofuels and bioproducts industries.
Biomass and
Bioenergy
2014; 68: 161-174.
