8 pages, via online journal, Dense networks of rivers, canals, ditches, dikes, sluice gates, and compartmented fields have enabled the farms of the Red River Delta to produce 18% of Vietnam's rice (Oryza sativa) crop (figure 1), 26% of the country's vegetable crops, and 20% of capture and farmed aquaculture (Redfern et al. 2012). Agriculture in this fertile delta was transformed in the 11th and 13th century AD by large-scale hydraulic projects to protect the delta from flooding and saltwater intrusion, and provide field drainage during the wet season and crop irrigation in the dry season (Tinh 1999). The 20th century brought advancements in agricultural science globally—new crops and livestock genetics, inorganic fertilizers, mechanization, and pesticides that could double and triple food production per unit of land. It was the diesel pump combined with post-Vietnam War agricultural collectivization from 1975 to 1988 that brought the Green Revolution to the Red River Delta.
Congress organized by the World Bank, The Communication Initiative and the Food and Agriculture Organization of the United Nations (FAO).
Format:
Report
Publication Date:
2007
Published:
International: World Bank, Washington, D.C.
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Document Number: C26963
Notes:
Posted at ftp://ftp.fao.org/docrep/fao/010/ai143e/ai143e01.pdf, Report of a World Congress that took place October 25-27, 2006, in Rome, Italy. 126 pages.
Kugler, Lisbet (author) and World Conservation Union (IUCN), International Union for Conservation and Natural Resources.
Format:
Proceedings
Publication Date:
2003-09-07
Published:
International
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 154 Document Number: C24945
Notes:
Chapter 29 in Denise Hamu, Elisabeth Auchincloss and Wendy Goldstein (eds.), Communicating protected areas. Presented to the Vth IUCN World Parks Congress, Durban, South Africa, September 8-17, 2003.
30 pages., via online journal., Faced with the task of communicating their combined social, environmental
and economic impact, water service providers are seeking to report overall performance
in an aggregated way. Such a methodology must be scientifically robust, easily
communicated and allow benchmarking of performance while reflecting a transition
towards sustainability. In this paper the ecological footprint (EF) is calculated for
Sydney Water Corporation (SWC), using input–output analysis and land disturbance in
an innovative approach that overcomes problems identified in the original EF concept.
This pilot study has allowed SWC to gain some valuable insights into its impacts:
SWC’s annual EF is about 73 100 ha in terms of land disturbance. Of this, 54 000 ha
are projected to become disturbed as a consequence of climate change, with the remainder
of 19 100 ha being disturbed on SWC’s premises (2400 ha) and on those of upstream
suppliers (16 700 ha). Total on-site impacts equal 9300 ha, while indirect land disturbance contributes 63 600 ha. The EF appears promising as an educational and communication tool and may have potential as a decision support tool. However, further research
is needed to incorporate downstream impacts into the EF, which would have significant
benefits to SWC in terms of assessing and communicating the organization’s overall
progress towards sustainability.
