Record ID No. |
489 |
Author(s) |
Jefwa J.M., Sinclair R., Maghembe J.A. , 2006 |
Affiliation |
National Museums of Kenya, Herbarium Department, POB 45166, Nairobi, Kenya |
Title |
Diversity of glomale mycorrhizal fungi in maize/sesbania intercrops and maize monocrop systems in southern malawi |
Source. Vol.(no):Page |
Agroforestry systems. 67(2):107-114p. |
Categories |
Arbuscular Mycorrhiza |
Subjects |
Ecology |
Host |
Sesbania sesban, Maize, Sesbania macrantha |
Organism |
Acaulospora, Glomus, Gigaspora, Scutellospora. |
Country |
Kenya, Africa |
Abstracts |
The study investigated diversity and frequency of occurrence of glomale (Arbuscular- or Vesicular Arbuscular-) mycorrhizal fungi on three farming systems in a drought prone and nitrogen deficiency site in southern Malawi. The farming systems comprised of two agroforestry systems of Sesbania sesban (L) Merr intercropped with maize and Sesbania macrantha E Phillips & Hutch. intercropped with maize and a maize monocrop systems without fertilizer, with nitrogen, phosphorus and a combination of nitrogen and phosphorus. Species diversity and species frequency of occurrence were examined in soil samples obtained in the dry and wet seasons. Twelve glomale mycorrhizal species were recorded, four species being in the genus Acaulospora, four in Glomus, two in Gigaspora and two in Scutellospora. Species diversity in the two agroforestry systems were not significantly (p <= 0.05) different but had lower species diversity than maize monocrop with only Sesbania macrantha intercropped with maize significantly (p <= 0.05) lower. Species diversity was significantly increased by the inorganic nitrogen fertilizer. Inorganic phosphorus fertilizer had no effect. The study shows that the occurrence and persistence of glomale species are influenced by agroforestry combinations, and that the spores of most species are tolerant to dry conditions. Only four species responded to fertilizer application with the occurrence of spores of some species high and some low. Management practices have great implication in the persistence of spore propagules of glomale species. |