Geoscience Reference
In-Depth Information
Krapfenbauer, A. and Wriessnig, K. 1995. Anthropogenic
environmental pollution—The share of agriculture.
Bodenkultur
46:
269-283.
Kreuzer, M. and Hindrichsen, I. K. 2006. Methane miti-
gation in ruminants by dietary means: The role of their meth-
ane emission from manure. In:
Greenhouse Gases and Animal
Agriculture: An Update
, eds. Soliva, C. R.; Takahashi, J. and
Kreuzer, M. International Congress Series No. 1293. Elsevier,
the Netherlands. pp. 199-208.
Kripalani, R, H.; Inamdar, S. R. and Sontakke, N.
A. 1996. Rainfall variability over Bangladesh and Nepal:
Comparison and connection with features over India.
International Journal of Climatology
16:
689-703.
Külling, D. R.; Menzi, H.; Sutter, F.; Lischer, P. and
Kreuzer, M. 2003. Ammonia, nitrous oxide and methane
emissions from differently stored dairy manure derived from
grass- and hay-based rations.
Nutrient Cycling in Agroecosystems
65:
13-22.
Kurkalova, L.; Kling, C. L. and Zhao, J. 2004. Multiple
benefits of carbon friendly agricultural practices: Empirical
assessment of conservation tillage.
Environmental Management
33:
519-527.
Lal, M.; Cubasch, U.; Voss, R. and Waszkewitz, J.
1995. Effect of transient increases in greenhouse gases and
sulphate aerosols on monsoon climate.
Current Science
69:
752-763.
Lal, M.; Nozawa, T.; Emori, S.; Harasawa, H.;
Takahashi, K.; Kimoto, M.; Abe-Ouchi, A.;
Nakajima, T.; Takemura, T. and Numaguti, A.
2001. Future climate change: Implications for Indian summer
monsoon and its variability.
Current Science
81:
1196-1207.
Lal, M.; Singh, S. K.; Srinivasan, G.; Rathore, L. S.;
Naidu, D. and Tripathi, C. N. 1999. Growth and yield
response of soybean in Madhya Pradesh, India to climate variabil-
ity and change.
Agricultural and Forest Meteorology
93:
53-70.
Lal, M.; Singh, K. K.; Srinivasan, G.; Rathore, L.
S. and Saseendran, A. S. 1998. Vulnerability of rice
and wheat yields in NW-India to future change in climate.
Agriculture and Forest Meteorology
89:
101-114.
Lal, R., 1999. Soil management and restoration for C sequestra-
tion to mitigate the accelerated greenhouse effect.
Progress in
Environmental Science
1:
307-326.
Lal, R. 2001a. World cropland soils as a source or sink for atmo-
spheric carbon.
Advances in Agronomy
71:
145-191.
Lal, R. 2001b. Potential of desertification control to sequester carbon
and mitigate the greenhouse effect.
Climate Change
15:
35-72.
Lal, R. 2002. Carbon sequestration in dry ecosystems of West Asia
and North Africa.
Land Degradation and Management
13:
45-59.
Lal, R. 2003. Global potential of soil carbon sequestration to miti-
gate the greenhouse effect.
Critical Reviews in Plant Sciences
22:
151-184.
