Environmental Engineering Reference
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Kumar, M. D., & Singh, O. P. (2005). Virtual water in global food and water policy making: Is
there a need for rethinking.
Water Resource Management, 19
(6), 759
-
789.
Lackner, K. S., & Brennan, S. (2009). Envisioning carbon capture and storage: Expanded
possibilities due to air capture, leakage insurance, and C-14 monitoring.
Climatic Change, 96
(3), 357
-
378.
Lal, R. (2008). Laws of sustainable soil management.
Agronomy of Sustainable Development, 29
,
7
9.
Lal, R., & Augustine, B. (2011).
Carbon sequestration in Urban ecosystems
. Dordrecht,
Netherlands: Springer.
Lal, R. (2013). Beyond sustainable intensification. In SSSA conference, Tampa, FL 3
-
6 November
-
2013.
Laurenson, S., Bolan, N. S., Smith, E., & McCarthy, M. (2012). Review: Use of recycled
wastewater for irrigating grapevines.
Australian Journal of Grape and Wine Research, 18
(1),
1
10.
Li, F., Behrendt, J., Wichmann, K., & Otterpohl, R. (2008). Resources and nutrients oriented grey
water treatment for non-potable reuses.
Water Science and Technology, 57
, 1901
-
1907.
Li, F., Wichmann, K., & Otterpohl, R. (2009a). Evaluation of appropriate technologies for grey
water treatments and reuses.
Water Science and Technology, 59
, 249
-
260.
Li, F., Wichmann, K., & Otterpohl, R. (2009b). Review of the technological approached for grey
water treatment and reuses.
Science of the Total Environment, 407
, 3439
-
3449.
Lin, H. (2003). Hydropedology: Bridging disciplines, scales and data.
Vadose Zone Journal, 2
,
1
-
11.
Lin, H. S., Kogelmann, W., Walker, C., & Bruns, M. A. (2005). Soil moisture patterns in a
forested catchment: A hydropedological perspective.
Geoderma, 131
(3
-
368.
Lin, H. S., Bouma, J., Pachepsky, Y., Western, A., Thompson, J., Van Genuchten, R., et al.
(2006). Hydropedology: Synergistic integration of pedology and hydrology.
Water Resources
Research, 42
, W05301. doi:
10.1029/2005WR004085
.
Lindstrom, A., Granit, J., & Weinberg, J. (2012). Large-scale water storage in the water, energy
and food nexus: perspectives on bene
ts, risks, and best practices.
SIWI Paper 21
. Stockholm:
SIWI.
Loucks, D. P., & Jia, H. F. (2012). Managing water for life.
Front. Environ. Sci. Engin., 6
(2),
255
4), 345
-
-
264.
Maggi, F., & Pallud, C. (2010a). Martian base agriculture: The effect of low gravity on water
ow:
nutrient cycles, and microbial biomass dynamics.
Advances in Space Research, 46
,
1257
-
1265.
Maggi, F., & Pallud, C. (2010b). Space agriculture in micro- and hypo-gravity: A comparative
study of soil hydraulics and biogeochemistry in a cropping unit on Earth, Mars, the Moon and
the space station.
Planetary and Space Science, 58
, 1996
-
2007.
McKinsey & Company. (2009). Charting our water future: economic frameworks to inform
decision-making. Retrieved Oct 1, 2013, from
http://www.mckinsey.com/App_Media/Reports/
Mekonnen, M. M., & Hoekstra, A. Y. (2012). A global assessment of the water footprint of farm
animal products.
Ecosystems, 15
, 401
-
415.
Morrow, R. C., Bula, R. J., Tibbitts, T. W., & Dinauer, W. R. (1994). The astroculture flight
experiment series, validating technologies for growing plants in space.
Advances in Space
Research, 14
,29
-
37.
Mu, J., & Khan, S. (2009). The effect of climate change on the water and food nexus in China.
Food Security, 1
(4), 413
-
430.
Munnoli, P. M., & Bhosle, S. (2011). Water-holding capacity of earthworms
-
vermicompost made
of sugar industry waste (press mud) in mono- and polyculture vermireactors.
Environmentalist,
31
, 394
-
400.
Musee, N. (2011). Nanotechnology risk assessment from a waste management perspective: Are the
current tools adequate?
Human and Experimental Toxicology, 30
(8), 820
-
835.
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