Effects of seed priming, aggregate size and soil matric potential on emergence of cotton ( Gossypium hirsutum L.) and maize ( Zea mays L.)

Abstract

Poor crop establishment, due to poor land preparation methods and inadequate soil moisture, continues to be a major constraint to crop production for smallholder farmers in the semi-arid tropics. On-farm seed priming (soaking seed in water) has been offered as a solution to this problem, but the ways in which this technology interacts with soil conditions are not well understood. The interactions between seed priming and soil physical conditions on cotton ( Gossypium hirsutum L.) and maize ( Zea mays L.) emergence and seedling growth were determined in laboratory pot experiments. The treatments included seed treatment (primed and non-primed), initial soil matric potential (−10, −50, −100, −200 and −1500 kPa) and aggregate size (<1, 1–2, 2–4.75 and 4.75–16 mm). Non-sieved soil was used as a control. The soil used (a Chromic Cambisol) was collected from Save Valley Experiment Station in the southeastern lowveld of Zimbabwe. The pots of soil were allowed to dry out after planting, to simulate a deteriorating seedbed. Emergence was subsequently monitored, and plant growth measured 8 days after planting. Final percent emergence and seedling growth decreased with initial matric potential but increased with priming in both crops. Large aggregate sizes generally had an adverse effect on emergence and growth. The data are consistent with the hypothesis that on-farm seed priming can partly compensate for the negative effects of low soil matric potential and large aggregate sizes on crop establishment.