Tree establishment under deficit irrigation on degraded agricultural land in the lower Amu Darya River region, Aral Sea Basin

Degraded land within the irrigated areas of the Aral Sea Basin is characterized by high soil salinity, shallow saline groundwater (GW), low irrigation water availability and thus is often unsuitable for crop cultivation. Afforestation is one option for mitigating such degraded land but to be success...

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Bibliographic Details
Published in:Forest ecology and management 2008-02, Vol.255 (1), p.168-178
Main Authors: Khamzina, A., Lamers, J.P.A., Vlek, P.L.G.
Format: Article
Language:English
Subjects:
Afforestation
Animal and plant ecology
Animal, plant and microbial ecology
Aral Sea region
Biological and medical sciences
Biomass production
deficit irrigation
Drip irrigation
dry matter accumulation
Elaeagnus angustifolia
Forest management
Forest management. Stand types and stand dynamics. Silvicultural treatments. Tending of stands. Natural regeneration
forest plantations
Forestry
Fundamental and applied biological sciences. Psychology
Furrow irrigation
groundwater
microirrigation
plant establishment
Populus
Populus euphratica
root growth
Root/shoot ratio
roots
saline water
Salinity
salt tolerance
Set-aside cropland
shoots
soil degradation
soil salinity
Synecology
Terrestrial ecosystems
tree growth
tree mortality
trees
Ulmus pumila
water availability
water table
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Summary:Degraded land within the irrigated areas of the Aral Sea Basin is characterized by high soil salinity, shallow saline groundwater (GW), low irrigation water availability and thus is often unsuitable for crop cultivation. Afforestation is one option for mitigating such degraded land but to be successful it requires the selection of appropriate tree species and irrigation techniques for tree establishment. In a two factorial split–plot experiment the survival, dry matter production, root growth, and biomass partitioning of Elaeagnus angustifolia L., Ulmus pumila L., and Populus euphratica Oliv. were compared under three irrigation regimes for two consecutive years. During the third year, the response of the plantations to the cessation of irrigation was evaluated. A “deficit” and “full” water treatment, respectively amounting to 80 and 160 mm year −1 was applied via drip irrigation. Traditional furrow irrigation supplied at the deficit rate, served as the control. Mixed linear model analysis showed significantly enhanced growth of P. euphratica under drip irrigation exceeding 7–14 times that under the control. Drip irrigation was not advantageous for the other species which effectively used the shallow (0.9–2.0 m deep) GW with a salinity ranging between 1.2 and 4.8 dS m −1. After cessation of irrigation, all species at the deficit-irrigated plots retained or increased their growth rates. In contrast, formerly full-irrigated P. euphratica slowed down by about 50%, indicating that deficit watering created better pre-conditions for coping with the termination of irrigation. E. angustifolia produced about 30 t ha −1 year −1 of above-ground biomass more than twice that of the other species, thus showing in the short-run its high potential on marginal land. U. pumila showed stable, albeit moderate growth rates and could be mixed with the short-living, fast-growing E. angustifolia plantations to optimize the yields. Low initial survival (57%) of P. euphratica was compensated for by its strong regeneration and drastically increasing growth rates. Initially high root-zone salinity exceeding 30 dS m −1, stabilized over time within the medium range even in the absence of irrigation. The application of costly drip irrigation for plantation establishment appears unnecessary in the Aral Sea region Khorezm where a shallow, slightly-to-moderately saline GW table prevails throughout the growing season.
ISSN:0378-1127
1872-7042
DOI:10.1016/j.foreco.2007.09.005