Effects of environment and host on vector biology and incidence of two whitefly-spread diseases of legumes in Nigeria

Seasonal periodicity in the incidence of cowpea golden mosaic (CGM) and lima bean golden mosaic (LBGM), two whitefly-spread virus-like diseases, corresponded closely with fluctuations in population density of their vector, Bemisia tabaci, at two contrasting sites in southern Nigeria. Peak catches of the vector followed the onset of rains after very high temperatures during the dry season; populations declined abruptly with continuous, heavy rainfall. At Onne, B. tabaci infested legumes at emergence and remained and reproduced on them but at Ibadan infestation was delayed and there was no evidence of reproduction on legumes. B. tabaci preferred LBGM-susceptible lima beans (Phaseolus lunatus) to resistant ones and more pupae of B. tabaci occurred on CGM-susceptible cowpea (Vigna unguiculata) cultivars than on resistant ones but these observations did not relate to the yellow-sensitivity of whiteflies. Resistance to CGM in cowpea, and to LBGM in lima bean, was identified amongst germplasm exposed to natural infection. Resistance was, in each case, associated with lower disease incidence, slower spread and milder expression of symptoms relative to susceptible cultivars. Vector non-preference for resistant cultivars may have contributed to reduced secondary spread.     

Development of Vertebrate Skeletal Muscle

An investigation of developing skeletal muscle necessitatesthe study of three categories; the derivation of muscle cellsor fibers, myofilament synthesis and interactions, assemblyof myofilaments into functional sarcomeres of striated myofibrils.With few exceptions, skeletal muscle cells are of mesodermalorigin, and consist of rounded mononucleated cells which elongateand fuse with one another to become myotubes. Within the sarcoplasm,myofibrillar proteins are synthesized and grouped into interactingthick and thin filaments. Crude, non-striated myofibrils resultfrom linear arrangements of thick and thin filaments which arehorizontally aligned by the invaginating sarcotubular system.After Z-lines form, providing attachment sites for thin filaments,a typical banding pattern follows. The newly formed Z-linespull apart, followed by the attached thin filaments, and repeating"relaxed" sarcomeres are the resulting striated myofibrillarpattern.     

Patterns of arbuscular mycorrhiza down the profile of a heavy textured soil do not reflect associated colonization potential

Colonization of roots by arbuscular mycorrhizal (AM) fungi in several annual crops in two consecutive seasons was compared with, in the second season, the density of fungal propagules in the soil with the use of a bioassay. Root density decreased down the soil profile in both years in all crops, and a high proportion of roots were mycorrhizal throughout the profile. AM colonization decreased down the profile in cotton and lablab in the second season only. The bioassay indicated that most propagules of AM fungi in soils under cotton were located near the surface, with virtually no propagules at 1 m. The absence of propagules at depth indicates a lack of mycelium deep in the soil, and suggests that mycorrhizas are primarily initiated in the surface soil and that the fungi colonize the root system mostly through secondary spread down the profile. The use of AM colonization in the field as an indicator of propagule density and symbiotic function should be qualified by an understanding of the depth in the soil from which roots were extracted.