Hostname: page-component-848d4c4894-xfwgj Total loading time: 0 Render date: 2024-06-19T07:38:17.286Z Has data issue: false hasContentIssue false
  • English
  • Français

Five Potential New Crops for Arid Lands

Published online by Cambridge University Press:  24 August 2009

C. Wiley Hinman ,
Allan Cooke  and
Richard I. Smith
C. Wiley Hinman
Affiliation:
President, Hinman Associates, 4211 N. Camino Ferreo, Tucson, Arizona 85715, USA; Adjunct Professor, University of Arizona, Tucson, Arizona 85721, USA
Allan Cooke
Affiliation:
Chairman, Chemical Discoveries Group, Mamhilad Park Estate, Pontypool, Gwent, NP4 ODZ, South Wales, UK
Richard I. Smith
Affiliation:
Agricultural Consultant, Summersbury, Chichester Road, Midhurst, West Sussex GU29 9PS, England, UK.
Get access Rights & Permissions [Opens in a new window]

Extract

In view of the increasing rate of world-wide desertification in many arid and semi-arid land situations, certain plants that produce human or animal feedstuffs or industrially useful by-products under such hostile environments deserve the most serious attention.

Type
Main Papers
Information
Environmental Conservation , Volume 12 , Issue 4 , Winter 1985 , pp. 309 - 315
Copyright
Copyright © Foundation for Environmental Conservation 1985

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Anon. (1982). ICI approaches decision on its PHB biopolymer. Biomass Digest, 4(12), p. 4.Google Scholar
Anon. (1983 a). News of the week. Chem. Eng. News, 61, 16 05, pp. 68, illustr.Google Scholar
Anon. (1983 b). Why starch polyols, Olin has some answers. Biomass Digest, 5(7), pp. 23.Google Scholar
Anon. (1984 a). Battelle gasifies bagasse to syngas to produce methanol. Biomass Digest, 6(4), pp. 78.Google Scholar
Anon. (1984 b). Goodyear pursues terpene conversion work. Biomass Digest, 5(8), p. 2.Google Scholar
Bouwkamp, J.C. (1984). The potential of sweet potatoes and their problems. World Crops, 03/04, pp. 5962, illustr.Google Scholar
Eckholm, E.P. (1982). Down to Earth. Pluto Press, London, England, UK: v + 238 pp.Google Scholar
Epstein, E. (1979). Responses of plants to saline environments. Pp. 721 in Genetic Engineering of Osmoregulation. Plenum, New York, NY, USA: [not available for checking].Google Scholar
Grainger, A. (1982). Desertification. IIED-Earthscan Paperbacks, London & Washington: iv + 94 pp., illustr.Google Scholar
Hinman, C.W. (1984). New crops for arid lands. Science, 225, pp. 1445–8.CrossRefGoogle ScholarPubMed
Hogan, L. & Bemis, W.P. (1983). Buffalo Gourd and Jojoba: Potential new crops for arid lands. Adv. Agron., 36, pp. 317–49, illustr.Google Scholar
Johnson, J.D. & Hinman, C.W. (1980). Oils and rubber from arid-land plants. Science, 208, pp. 460–4, illustr.CrossRefGoogle ScholarPubMed
Mabbutt, J.A. (1984). A new global assessment of the status and trends of desertification. Environmental Conservation, 11 (2), pp. 103–13, 5 figs.Google Scholar
McGinnies, W.G. (1981). Discovering the Desert. University of Arizona Press, Tucson, Arizona, USA: [not available for checking].Google Scholar
Milas, S. (1984). Population crisis and desertification in the Sudano-Sahelian region. Environmental Conservation, 11 (2), pp. 167–9, 4 figs.CrossRefGoogle ScholarPubMed
Morgan, R.P. & Schultz, E.B. Jr, (1981). Fuels and chemicals from novel seed oils. Chem. Eng. News, 59, 7 09, pp. 6977, illustr.Google Scholar
Princen, L.H. (1979). New crop development for industrial oils. J. Am. Oil Chem. Soc., 56, pp. 845–8.Google Scholar
Sperling, L.H. & Manson, J.A. (1983). Interpenetrating polymer networks from triglyceride oils containing special functional groups: a brief review. J. Am. Oil Chem. Soc., 60, pp. 1887–92, illustr.Google Scholar
Taguchi, M. (1976). CONACYT Memorias. Second International Conference on Jojoba, Ensenada, Baja California Norte, Mexico (3rd edn ‘printed in Mexico 1981’), pp. 149–70, 18 figs.Google Scholar