Yellow cards coated with adhesive were used to survey for the presence, relative abundance and seasonal patterns of lady beetles in research and commercial fields of processing sweet corn in central and western New York in 1992 and 1993. The lady beetles species recorded, in order of abundance were: Coleomegilla maculata lengi Timberlake, Coccinella septempunctata L., Psyllobora vigintimaculata (Say), Hippodamia parenthesis (Say), Propylea quatuordecimpunctata (L.), Cycloneda munda (Say), Hippodamia glacialis glacialis (F.), Adalia bipunctata (L.), Coccinella trifasciata perplexa Mulsant, and Coccinella transversoguttata richardsoni Brown. Coleomegilla maculata lengi was in sufficient number to reflect seasonal patterns. Coleomegilla maculata lengi populations rapidly increased in early July, peaked in late July or early August and then rapidly declined. The timing of C. maculata lengi peak abundance was more closely related to day-of-year than to stage of crop development based on accumulated degree days from planting. The pattern of capture of C. maculata lengi at incremental distances into the field did not indicate colonization from the field edge.
Samples collected from 1989 to 1992 document that the diamondback moth, Plutella xylostella (L.) was introduced into New York in early spring on cabbage, Brassica oleracea capitata (L.), transplants grown in the southern United States. During 1989, transplant shipments from five transplant companies in Florida, Georgia and Maryland were sampled for P. xylostella. In 1989, average seasonal infestations per transplant company ranged from 1.3 to 3.5 P. xylostella per 100 transplants. During June, when the majority of transplants arrived in New York, P. xylostella infestations were as high as 12.8 insects per 100 transplants on an individual shipment. Infestations by cabbage looper, Trichoplusia ni (Hübner), imported cabbageworm, Artogeia (=Pieris) rapae (L.), and cabbage webworm, Hellula rogatalis (Hulst), on an individual shipment were as high as 19.7 insects per 100 transplants. Compared with a standard susceptible field population, the P. xylostella which were collected from transplants demonstrated moderate to high (> than 100-fold in one case) levels of resistance to permethrin or methomyl. In 1990, average seasonal infestations per transplant company varied from 0.3 to 12.0 P. xylostella per 100 plants, but an individual shipment from Florida had 30.4 P. xylostella per 100 transplants. A population of P. xylostella collected in 1990 from Florida transplants had >200-fold resistance to methomyl. Despite intensive treatments, a New York grower who used the transplants with high contamination of resistant P. xylostella was unable to achieve acceptable control in his field. Samples collected from 1989 to 1992 from a transplant grower in Maryland indicate that better management in the field can reduce contamination levels to < 0.5%. The introduction of P. xylostella, especially those resistant to insecticides, on transplants poses a serious threat to cabbage growers and interregional management strategies should be adopted.
The increasing surplus production of cereals in the EC has greatly stimulated the interest for new outles for cereals. The main part of the 98 million tons of starch produced in cereals in the EC today remains in the grain and is used for food and feed ‐ only a minor part finds application in industry. The total EC production of native starch is only about 4 million of which 1.3 million t is used in non‐food industries. However, there are still numerous not yet fully explored potential applications which will be discussed. A prerequisite for substantial increase in utilization of starch products within the EC is an improvement of the competitiveness towards competing raw materials, mainly petro‐derived. One step towards this goal might be to breed and “industry‐adapted” cereal crop with a high content of starch of a special quality. A study performed by Carlsberg Research Center has shown that starch content is positively correlated with grain yield which is in accordance with the fact that it is “cheaper” for the plant to produce starch than protein or fat. The study also showed that starch content and starch composition can vary widely, not only between species but also within varieties of the same species. Also agronomical and meteorological factors have influence. For instance, it was found that rain (water) applied to leaves will reduce starch content compared to plants given same amount of water to the roots. Also improvements in the processing of grain may increase competitiveness of starch. New dry and wet milling techniques will be discussed.
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