Some Ecological Studies on the Cabbage White Fly, Aleyrodes Brassicae (Walker). Hemiptera-Homoptera-Aleyrodidae

Al-Houty, W.

January 1979

The development of known population cohorts, subjected to partial or complete predator and parasite exclusion, were studied during the summer period for the three years 1976, 1977 and 1978. The data for 1977 and 1978 were compiled into life tables and subjected to key factor analysis. The residual k5 (adult mortality) contributed most to total mortality in both years, but the key factor varied between years and sometimes between generations. Of the actual field mortalities involving the developmental instars, most mortality occurred with young larvae and there is an indication that airborne predators were largely responsible. When adult whiteflies were confined on leaves of Brussels sprout of different physiological ages, significantly more eggs were deposited on young leaves than on either mature or senescent ones. The rate of development and survival of subsequent larvae were also favoured when they were reared on young leaves. The position of leaves viz, horizontal, vertical or inverted, did not significantly affect egg deposition or larval development. When whiteflies were caged on upper and lower leaf surfaces, the latter provided conditions that gave higher egg deposition and improved survival rate of larvae than the former. Adults showed a pronounced oviposition preference for lower surfaces when compared to upper ones, irrespective of leaf position. Oviposition and feeding of whiteflies are so closely linked that nutritional factors are considered responsible for both types of discrimination. When adults were confined to basal, middle and apical parts of leaves, egg deposition, fecundity, rate of larval development and adult longevity were all favoured by the basal part, differences between the other two parts were le m consistent but, generally, performance was better on the middle part than on the apical part. There was a correlation between performance on leaf parts and differences in total nitrogen content. The effects of water stress on egg deposition and larval development were not significant although fewer eggs were laid on leaves subjected to the most severe water stress regime. Whitefly performance was also compared on plants given different levels of potassium and nitrogen. Most eggs were deposited on plants given high levels of potassium, but when such levels were combined with high nitrogen levels, larval development became more prolonged than under most other treatments. Whole leaf analysis revealed an inverse- correlation between potassium levels in the nutrient solution and levels of soluble nitrogen in the leaves.

632

Studies on the biology and etiology of rusts on roses

Howden, J. C. W.

January 1972

No description available.

632

Interrelations of globodera and some solanum (Leptostemonum) species

Roberts, P. A.

January 1978

No description available.

632

The Role of Phytoalexins in the Disease Resistance of V.Faba. L to Infection By Botrytis

Hargreaves, J. A.

January 1976

No description available.

632

The resistance of Vicia Faba L. to infection by botrytis

Rossall, S.

January 1978

No description available.

632

Studies on Mildews Infecting the Gramineae

Leeming, A. R.

January 1976

No description available.

632

Studies on a Plant Virus which Replicates in its Insect Vector

Schultz, M. G.

January 1973

No description available.

632

Nitrilase activity in plant-associated Pseudomonas

Howden, Andrew

January 2007

Pseudomonas fluorescens SBW25 (P.f.SBW25) is a plant growth-promoting rhizobacterium (PGPR) that efficiently colonises the rhizosphere of a range of plants. Previously In Vivo Expression Technology (IVET) has identified a rhizosphereinduced gene (pinA) in P.f.SBW25 that shows homology to members of the nitrilase group of hydrolyzing enzymes. Nitrilase enzymes catalyse the hydrolysis of nitrile ;J) compounds (R-CN) to the corresponding carboxylic acid and ammonia. These enzymes have been described in plants, animals, bacteria and fungi and may be important in hormone synthesis, detoxification of toxic nitriles and nitrogen acquisition. In this investigation· nitrilase activity has been examined in P.f.SBW25 and in a range of other plant-associated Pseudomonas to identify the substrates and potential roles of nitrilase enzymes in bacteria colonising the plant environment. ~-cyanoalanine (AlaCN), a nitrile produced by plants and bacteria during cyanide detoxification, acts as a inducing chemical and a substrate for pinA activity. pinA expression is also induced by the substrates for AlaCN synthesis, cyanide and cysteine. Heterologous expression of pinA in bacteria and plants confers AlaCN hydrolysing activity and increased tolerance to toxic levels of AlaCN, suggesting a role for pinA in AlaCN detoxification. AlaCN-hydrolysing activity has also been observed in Pseudomonas f1uorescens PfO-1 and Pf-5. Nitrilase activity has also been detected in the plant pathogenic bacterium Pseudomonas syringae pv. syringae B728a (P.s.B728a). This bacterium hydrolyses arylacetonitriles, such as indoleacetonitrile, which are abundant in the plant environment and may do so for the purposes of nitrogen utilisation, detoxification or to modify plant growth and development.

632

Studies on the natural control of Pieris brassicae (L.) with particular reference to parasitism by Apanteles glomeratus (L.)

Hubbard, S. F.

January 1977

No description available.

632

Potato Tissue Resistance to the growth of Phytophthora infestans (Mont.) De Bary

Kassim, M. Y. A.

January 1976

No description available.

632