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Mesoscale atmospheric influences on the distribution and migration of the rice brown planthopperCrummay, Frances Anne January 1994 (has links)
No description available.
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Distribution of retroacizzia Mopani and its natural enemies in Tshikundamalema Area, Limpopo Province, South AfricaMmbengeni, Rofhiwa Isaac 18 September 2017 (has links)
MSCAGR (Plant Production) / Department of Plant Production / Colophospermum mopane (Fabaceae), commonly known as mopane tree, is an indigenous
tree species in Southern Africa, often being the dominant species in semi-arid areas. It plays
an integral part in the improvement of communities’ livelihoods when it is harvested for
firewood and mopane worms which are edible insects are collected from the tree.
Colophospermum mopane is host to many insects, among them Retroacizzia mopani, a leaf
pest. Retroacizzia mopani produces lerps which are protective exudates that shield the insect
from predation, but lerps also reduce the photosynthetic area of mopane leaves. This study
aimed to determine the distribution of the African mopane psyllid, R. mopani and its natural
enemies in the Tshikundamalema area, in Limpopo Province. The study assessed the
presence of lerps on C. mopane, as well as determining the effect of site, tree height, tree
density, tree position, branch size and neighbouring trees on R. mopani infestations at three
sites. Sample of leaves infested with R. mopani were collected at six different sites and reared
in the laboratory to determine the prevalence of R. mopani natural enemies and the levels of
parasitism. The site, tree density, tree position, and branch size had an effect on the R. mopani
infestations. The results showed that as the tree density, tree height and branch size
increased, R. mopani infestation also increased. Neighbouring trees had no effect on R.
mopani infestations. Trees found at the edge of the forest were more heavily infested
compared to those that were inside the forest. All the three sites had low levels of parasitism
by the natural enemy, Psyllaephagus arytainae Prinsloo. This indicates that P. arytainae has
little effect on population dynamics of the psyllids.
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