In acid sulphate soils with a high

In acid sulphate soils with a high short-range variability in soil and water characteristics and in levels of toxicities, the determination of the period of minimal stress is a key issue for cultivation. In the Mekong delta, Viet Nam, Tuong et al. (1991) observed that crops in the dry season suffer from lack of water and salinity intrusion, whereas floods and the flow of acid-contaminated water are limitations in the rainy season. Submersion of soils is known to raise soil pH, essentially through the reduction of ferric to ferrous iron, a process that consumes protons (Ponnamperuma, 1955 and Ponnamperuma, 1972; Tadano and Yoshida, 1977; Hanif et al., 1986). However, the rise in pH in acid sulphate soils is slower than in moderately acid wetland rice soils (Konsten et al., 1994).

Hanhart and Ni (1993), also in the Mekong delta, studied seasonal variations of the soil solution in acid sulphate topsoils and identified three periods in a year, related to redox potentials: (1) continuous oxidation during the dry season, starting at the recession of the flood; (2) alternate oxidation and reduction during the first part of the rainy season; and (3) continuous reduction during the flood.

They measured the highest concentrations of soluble aluminium and ferrous iron at the start of the rainy season and identified the end of the flood as the best time to start cultivation, as soluble aluminium concentration is low, pH is near neutral and ferrous iron level is moderate.

1.3. Objectives of the study
The strong and highly variable toxicities make crop performance extremely sensitive to the starting date of cultivation. Early or late sowing can have disastrous consequences on water management opportunities and consequently rice yield (Husson et al., submitted). The sowing date should be carefully determined by field conditions. It is anticipated that cropping techniques can enlarge the time window during which cultivation is possible, but this requires precise characterisation of temporal variability in cropping conditions, taking spatial variations into account.The improvement of physical characteristics by cultivation can facilitate water control, while the reduction of toxic ion concentrations by flushing and leaching reduces toxicities on plants (Tuong et al., 1993). However, these ions are released into the surface water. Monitoring, explanation and prediction of temporal variations of soils and water characteristics are also important to assess and try to prevent environmental degradation (Minh, 1996).

The objectives of the study are:

1.
to characterise and explain temporal variability of soils and water characteristics in the Plain of Reeds, at various time scales. The study is focused on an area of recent land reclamation, important in the context of the present fast development in the Plain of Reeds;
2.
to precisely identify optimal time windows for cultivation of rice after land reclamation, in actual conditions of production;
3.
to identify cropping practices prolonging short time windows.