This file is part of IDEAS, which uses RePEc data


[ Papers | Articles | Software | Books | Chapters | Authors | Institutions | JEL Classification | NEP reports | Search | New papers by email | Author registration | Rankings | Volunteers | FAQ | Blog | Help! ]

Farm and catchment scale effects of managing dry-land salinity with pastoral and woody perennials

Author info | Abstract | Publisher info | Download info | Related research | Statistics
Author Info
Finlayson, John
Bathgate, Andrew
Hoque, Ziaul
Nordblom, Tom
Theiveyanathan, Tivi
Crosbie, Russell
Mitchell, David
Abstract

Dry land salinisation is a significant cause of land and water degradation in Australia. Changing land use from annual to perennial crops has been widely proposed as a means to reduce land degradation and increase the productivity of saline land. However, in many areas annual crops are financially more attractive than perennial crops. Increases in perennial crops might also reduce local stream flows with adverse effects on in-stream values. As such salinity control is likely to involve significant tradeoffs between public and private costs and benefits. This paper considers the impact of planting differing areas of pastoral and woody perennials on farm profitability (P), and water (W) and salt (S) exports from the Little River catchment in New South Wales (NSW), Australia. The analysis uses two linear programming (LP) models. The first model represents a mixed crop and sheep system and the outputs of this model are integrated to provide inputs to a second catchment level model. The structure of the LP models is described and an analysis of the potential for perennials to assist in salinity management is presented. The implications of the analysis for farm systems and catchment scale changes in land use are considered. The study highlighted the importance of targeting management decisions to individual sub-catchments and of using relatively detailed farm level models as part of a catchment level study. The potential for perennials to contribute to profitable and robust farm systems and to reduce degradation to land from salt scalds and to streams arising with elevated discharge and wash-off of salt is demonstrated.

Download Info
To download:

If you experience problems downloading a file, check if you have the proper application to view it first. Information about this may be contained in the File-Format links below. In case of further problems read the IDEAS help page. Note that these files are not on the IDEAS site. Please be patient as the files may be large.

File URL: http://purl.umn.edu/10409
File Format: application/pdf
File Function:
Download Restriction: no

Publisher Info
Paper provided by Australian Agricultural and Resource Economics Society in its series 2007 Conference (51st), February 13-16, 2007, Queenstown, New Zealand with number 10409.

Download reference. The following formats are available: HTML (with abstract), plain text (with abstract), BibTeX, RIS (EndNote, RefMan, ProCite), ReDIF
Length:
Date of creation: 2007
Date of revision:
Handle: RePEc:ags:aare07:10409

Contact details of provider:
Postal: AARES Central Office Manager, APSEG, ANU, Canberra ACT 0200
Phone: (02) 6125 6564
Email:
Web page: http://www.aares.info/
More information through EDIRC

For technical questions regarding this item, or to correct its listing, contact: (AgEcon Search).

Related research
Keywords: Bio-economic modelling; linear programming; farm systems; catchments; dryland salinity; Land Economics/Use;

Statistics
Access and download statistics

Did you know? Want to help out with this project? Look for volunteer opportunities.

This page was last updated on 2009-12-26.

This information is provided to you by IDEAS at the Department of Economics, College of Liberal Arts and Sciences, University of Connecticut using RePEc data on a server sponsored by the Society for Economic Dynamics.