Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Crop and Pasture Science Crop and Pasture Science Society
Plant sciences, sustainable farming systems and food quality
Shopping Cart: ( empty )
You are here: Home > Journals > CP > AR06198
RESEARCH ARTICLE
Contents Vol 58(4)

Long-term effects of saline irrigation water on growth, yield, and fruit quality of ‘Valencia’ orange trees

A. M. Grieve A B , L. D. Prior A C D and K. B. Bevington A
+ Author Affiliations
- Author Affiliations

A NSW Department of Primary Industries, PO Box 62, Dareton, NSW 2717, Australia.

B Current address: Forests NSW, Pennant Hills, NSW 2120, Australia.

C Current address: School for Environmental Research, Charles Darwin University, Darwin, NT 0909, Australia.

D Corresponding author. Email: lynda.prior@cdu.edu.au

Australian Journal of Agricultural Research 58(4) 342-348 https://doi.org/10.1071/AR06198
Submitted: 14 June 2006  Accepted: 19 January 2007   Published: 12 April 2007

Abstract

Citrus is regarded as a salt-sensitive crop, but its yield response to salinity is affected by variety, rootstock, duration of salt exposure, irrigation management, soil type, and climate. This study quantified the yield response of mature Valencia [Citrus sinensis (L. Osbeck)] orange trees on sweet orange (C. sinensis) rootstock to increased levels of sodium chloride in irrigation water in the Sunraysia area of the Murray Valley in south-eastern Australia. The orchard was planted on a loamy sand and trees were irrigated and fertilised with a well-managed under-tree microsprinkler system. Four levels of salt, ranging from the river-water control (0.44 dS/m) to 2.50 dS/m, were applied over a 9-year period. Overall yield effects were smaller than expected, and did not conform well to the often used bent-stick model. Relative to the control, yield was initially higher (by up to 9%) in the intermediate salt treatments, and 3% lower in the highest treatment. However, relative yields of salinised trees decreased with time, and in the final year of the experiment, yield of the highest salt treatment was 9% lower than the control. Yield increases in the intermediate treatments resulted from increases in fruit number. All 3 salt treatments decreased average fruit weight by 4% and decreased juice content but increased juice sugar and acid content. Salt treatment strongly reduced trunk growth, and the effect increased with time. Our results show that with appropriate irrigation management, soils, and rootstocks, citrus trees can maintain productivity at salinity levels of 2.0 dS/m or more, but fresh fruit profitability is likely to be lower because of a reduction in average fruit size.

Additional keywords: River Murray, semi-arid irrigation area, multi-model inference, salinity.


Acknowledgments

We gratefully acknowledge the skilful and dedicated assistance of many colleagues over the years of this experiment, especially Wayne Shields and Sue Cox. We thank Corey Bradshaw and Julian Taylor for statistical advice. We also thank Jim Syvertsen for many helpful comments on the manuscipt. The trial was supported primarily by the NSW Department of Primary Industries, with additional funding provided by the Australian Government through the Australian Water Resources Advisory Program. The Riverlink Tri-State Salinity Project, funded by River Murray Water Catchment Management Board, National Program for Sustainable Irrigation, and MDBC, provided a grant to support the analysis and writing of this paper, and we thank Rob Stevens and Gerrit Schrale for organising this.


References


Bielorai H, Dasberg S, Erner Y, Brum M (1988) The effect of saline irrigation water on Shamouti orange production. Proceedings of the International Citrus Congress 6, 707–715. open url image1

Bielorai H, Shalhavet J, Levy Y (1978) Grapefruit response to variable salinity in irrigation water and soil. Irrigation Science 1, 61–71.
Crossref | GoogleScholarGoogle Scholar | open url image1

Bingham FT, Mahler RJ, Parra J, Stolzy LH (1974) Long-term effects of irrigation-salinity management on a Valencia orange orchard. Soil Science 117, 369–377.
Crossref | GoogleScholarGoogle Scholar | open url image1

Bureau of Meteorology (2006) ‘Climate averages for Wentworth Post Office.’ (www.bom.gov.au/climate/averages/tables/cw_047053.shtml)

Burnham KP, Anderson DR (2001) Kullback-Leibler information as a basis for strong inferences in ecological studies. Wildlife Research 28, 111–119.
Crossref | GoogleScholarGoogle Scholar | open url image1

Burnham KP , Anderson DR (2002) ‘Model selection and multimodel inference: a practical information-theoretic approach.’ (Springer: New York)

Cerdá A, Nieves M, Guillen MG (1990) Salt tolerance of lemon trees as affected by rootstock. Irrigation Science 11, 245–249.
Crossref | GoogleScholarGoogle Scholar | open url image1

Chapman HD (1968) The mineral nutrition of citrus. In ‘The citrus industry’. Vol. 2. (Eds W Reuther, LD Batchelor, HJ Webber) pp. 127–289. (University of California: Berkeley, CA)

Crawley MJ (2002) ‘Statistical computing. An introduction to data analysis using S-Plus.’ (Wiley: Chichester, UK)

Dasberg S, Bielorai H, Haimowitz A, Erner Y (1991) The effect of saline irrigation water on Shamouti orange trees. Irrigation Science 12, 205–211.
Crossref | GoogleScholarGoogle Scholar | open url image1

Francois LE, Clark RA (1980) Salinity effects on yield and fruit quality of Valencia orange. Journal of the American Society for Horticultural Science 105, 199–202. open url image1

García-Sanchez F, Carvajal M, Porras I, Botia P, Martinez V (2003) Effects of salinity and rate of irrigation on yield, fruit quality and mineral composition of ‘Fino 49’ lemon. European Journal of Agronomy 19, 427–437.
Crossref | GoogleScholarGoogle Scholar | open url image1

Grieve AM (1989) Water use efficiency, nutrient uptake and productivity of micro-irrigated citrus. Australian Journal of Experimental Agriculture 29, 111–118.
Crossref | GoogleScholarGoogle Scholar | open url image1

Grieve AM, Walker RR (1983) Uptake and distribution of chloride, sodium and potassium ions in salt-treated citrus plants. Australian Journal of Agricultural Research 34, 133–143.
Crossref | GoogleScholarGoogle Scholar | open url image1

Gutteridge, Haskins, Davey (1970) ‘Murray Valley salinity investigation. Vol. 1.’ (River Murray Commission: Canberra, ACT)

Gutteridge, Haskins, Davey (1999) ‘Murray-Darling Basin Commission Salinity Impact Study.’ (Gutteridge, Haskins and Davey Pty Ltd: Melbourne, Vic.)

Howie H, Lloyd J (1989) Response of orchard ‘Washington Navel’ orange, Citrus sinensis (L.) Osbeck to saline irrigation water. II. Flowering, fruit set and fruit growth. Australian Journal of Agricultural Research 40, 371–380.
Crossref | GoogleScholarGoogle Scholar | open url image1

Kozlowski TT (1997) ‘Responses of woody plants to flooding and salinity.’ Tree Physiology Monograph No. 1. (Heron Publishing: Victoria, Canada)

Levy Y, Shalhavet I, Bielorai H (1979) Effect of irrigation regime and water salinity on grapefruit quality. Journal of the American Society for Horticultural Science 104, 356–359. open url image1

Levy Y, Syvertsen J (2004) Irrigation water quality and salinity effects in citrus trees. Horticultural Reviews 30, 37–82. open url image1

Maas EV (1993) Salinity and citriculture. Tree Physiology 12, 195–216.
PubMed |
open url image1

Maas EV, Hoffman GJ (1977) Crop salt tolerance—current assessment. Journal of the Irrigation and Drainage Division 103, 115–134. open url image1

MDBC (2005) Murray-Darling Basin Ministerial Council, Basin Salinity Management Strategy 2004–2005 Annual Implementation Report, 2005. Murray-Darling Basin Commission Publication No. 05/06, Canberra, ACT.

Nieves M, Garcia A, Cerdá A (1991) Effects of salinity and rootstocks on lemon fruit quality. Journal of Horticultural Science 66, 127–130. open url image1

Northcote KH (1979) ‘A factual key for the recognition of Australian soils.’ 4th edn (Rellim Technical Publications: Glenside, S. Aust.)

Northcote KH , Boehm EW (1949) ‘The soils and horticultural potential of portion of Coomealla Irrigation Area.’ Series No. 1. (CSIRO Division of Soils and Land Use: Melbourne, Vic.)

Prior LD, Grieve AM, Bevington KB, Slavich PG (2007) Long-term effects of saline irrigation water on ‘Valencia’ orange trees: relationships between growth and yield, and salt levels in soil and leaves. Australian Journal of Agricultural Research 58, 349–358. open url image1

Prior LD, Grieve AM, Cullis BR (1992) Sodium chloride and soil texture interactions in irrigated field grown sultana grapevines. I. Yield and fruit quality. Australian Journal of Agricultural Research 43, 1051–1066.
Crossref | GoogleScholarGoogle Scholar | open url image1

R Development Core Team (2005) ‘R: A language and environment for statistical computing.’ (R Foundation for Statistical Computing: Vienna)

Soule J , Grierson W (1986) Maturity and grade standards. In ‘Fresh citrus fruits’. (Eds WF Wardowski, S Nagy, W Grierson) pp. 23–48. (The AVI Publishing Company: Westport, CT)

Storey R, Walker RR (1998) Citrus and salinity. Scientia Horticulturae 78, 39–81.
Crossref | GoogleScholarGoogle Scholar | open url image1