Improving grain legume yields using local Evate rock phosphate in Gurue District, Mozambique

African Journal of Agricultural Research
Rocha, Antonio; Maria, Ricardo; Waite, Unasse S.; Cassimo, Uatema A.; Falinski, Kim; Yost, Russell
PublisherAcademic Journals
Source N/A
Volume / Issue12/22
Total Pages8 pages
Article Link
Editor(s) N/A
Conference / Book Title N/A
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Tagsrock phosphate; pigeon pea; acid soils; food grains; food security; agriculture
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Conference Title N/A
Conference Date N/A
Publication DateJune 01, 2017
Article Date N/A
GS Citation N/A
AbstractAcid, infertile reddish-brown soils characterize large amounts of central Mozambique. Few of these soils are in food production representing a missed opportunity for agricultural productivity and a missed alternative to improve the food security of the country. Low levels of soil nutrients such as calcium, phosphorus, and potassium limit crop growth. Local agricultural amendments for acid, infertile soils such as limestone and rock phosphate exist but are unexploited. An experiment was conducted to assess the feasibility of using local Evate rock phosphate (40.7% total P2O5) as a corrective to supply phosphorus. The rock phosphate was applied at rates of 20, 40, 80 and 160 kg total P ha-1. Comparison triple super phosphate was also added at four P levels (0, 10, 20 and 40 kg P ha-1). A long growth cycle crop of pigeon pea (Cajanus cajan L., Mill sp. variety ÒICAEP00020Ó) with a growth cycle of 190 days was used to assess effectiveness of the local rock phosphate. A pigeon pea grain yield of 1000 kg grain ha-1 was possible with an application of 80 kg ha-1 of total P added as Evate rock phosphate. By comparison 20 kg P ha-1 as TSP was needed to reach a maximum yield of pigeon pea grain. This ratio suggests that Evate rock phosphate was 25% as effective as TSP on a total P basis. This research suggests that the Evate rock phosphate can be an effective amendment that can enable or enhance food grain production on the acid, infertile upland soils of Central Mozambique. Whether for direct application for acid-tolerant crops or acid soils or processed into soluble fertilizer phosphate, the existence of such a valuable resource provides a great opportunity for improved local food crop production.
Created: 12/14/2017 10:29 AM (ET)
Modified: 12/31/2018 11:38 AM (ET)
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