Jim Morris

Groundwater uptake and sustainability of farm plantations on saline sites in Punjab province, Pakistan

Productive tree plantations on degraded land within Pakistan’s irrigation areas may help control salinity by extracting shallow groundwater, but their adoption has been limited by a lack of information on tree‐water‐salt interactions. Tree growth, water use, climate and soil conditions were monitored between 1994 and 1998 in young plantations of Eucalyptus, Acacia and Prosopis at two locations in Punjab province. Eucalyptus camaldulensis on an irrigated, non-saline site near Lahore showed best growth till the age of 5 years, and an annual water use of 1393 mm. Irrigated Eucalyptus microtheca at this site and unirrigated E. camaldulensis dependent on saline groundwater at Pacca Anna also transpired over 1000 mm of water per year. Basal area growth of Acacia ampliceps at the latter site was similar to E. camaldulensis, but its water use was less. Lowest annual water use of 235 mm was shown by an understocked stand of Prosopis juliflora. Canopy conductance decreased with increasing vapour pressure deficit to a species-dependent minimum value. Results of soil sampling, chloride balance modelling and intensive monitoring of soil solution salinity demonstrated accumulation of salt in the root zone of plantations using saline groundwater. The concentration of stored salt varied seasonally as a result of water table fluctuations and redistribution processes within the unsaturated zone. The apparent limitation of salt accumulation by these processes and the continuing satisfactory growth of the plantations justify cautious support of tree growing as a control measure for shallow water tables and salinisation in Pakistan. # 2001 Elsevier Science B.V. All rights reserved.

Groundwater uptake and sustainability of Acacia and Prosopis plantations in Southern Pakistan

Farm woodlots or plantations of salt tolerant trees may provide an economic use or reclamation treatment for salt-affected farmland within the irrigation regions of the Indus Valley, but the hydrological impact and sustainability of such plantations are unknown. Detailed measurements of plantation water use, watertable depth and soil conditions were recorded over 2 years in two small plantations with contrasting soil and groundwater salinity at Tando Jam in the Sindh province of Pakistan. The species monitored were Acacia nilotica, A. ampliceps and Prosopis pallida. Annual water use by 3- to 5-year old A. nilotica was 1248 mm on the severely saline site and 2225 mm on the mildly saline site. Water use by the other species was less than 25% of these rates, but this difference is largely explained by their lower density in terms of sapwood area per hectare. Water use by A. nilotica was considerably greater than annual rainfall, implying uptake of groundwater which was confirmed both by piezometric observations and chloride balance modelling to predict vertical water movement through the root zone. Plantation watertables fell from 1.7 m below surface in March to over 2.9 m in September, then rose again during irrigation of the surrounding farmland. Root zone salt concentrations remained high at the more saline site throughout the monitoring period, but at the less saline site there was evidence of increasing root zone salinity as salt accumulated in areas of the profile subject to root water uptake. Salt concentration in the upper profile decreased as the soil dried and water was absorbed from greater depth. Plantations using saline groundwater may be sustainable if occasional leaching and other salt-removing processes are sufficient to maintain root zone salinity at a level which does not excessively reduce tree growth.