Seasonal abundance, distribution, and migration of the clover aphid, Nearctaphis bakeri (Cowen) in red clover

Dreves, Amy J.

21 November 1990

Four sampling techniques were evaluated to estimate clover aphid, Nearctaphis bakeri (Cowen), abundance in red clover fields in the Willamette Valley. The Berlese funnel method detected one to four times more aphids than other sampling techniques. Visual assessment often underestimated the high aphid densities during the flowering and seeding of clover. Sweep net and Schuh shaker techniques had limitations and underrated the numbers of aphids present in the clover fields. Strong correlations (r² = 0. 74 - 0.87) were found between the Berlese funnel technique and visual assessment technique in a 2nd year established field. Numerical differences in the spatial distribution of N. bakeri on clover stems were shown during various stages of plant development over the season. During development of buds and axils, aphid numbers on the lower half of the plant averaged 1.5 times greater than those on the upper half. As the season progressed into the flowering and seeding stage, aphid numbers on the upper stem halves were approximately five times greater than those on the lower half. Winged clover aphids were too few to show definite peaks of flight using water traps, averaging 2.19 aphids per yellow bucket during the June-August period. No significant differences in aphid attractiveness to the different colors were found among water pan traps. Yellow buckets captured approximately five times more alate aphids than did yellow, red, or green pan traps. Traps placed on the south side of the field contained higher numbers of aphids than in other locations in the red clover fields. / Graduation date: 1991

Aphididae -- Oregon

Effect of several insects on the chemical composition of alfalfa, red clover, and birdsfoot trefoil

Mathur, Rishiraj Behari Lal

January 1964

To make use of the information on infestation estimates of forage insect pests obtained by the conventional methods of sampling, it is important to estimate the actual losses taking place in association with definite numbers of the insect. Six month old red clover, alfalfa, and birdsfoot trefoil plants were exposed for a month to spittlebug infestations of 0, 50, 100, and 150 adults. Although the spittlebug mortality was lowest when reared on alfalfa and highest on birdsfoot trefoil, yellowing appeared on alfalfa and birdsfoot trefoil. On red clover there was a consistent increase in protein and nitrogen free extract and a reduction in crude fiber and ash content indicating slight reduction in growth. None of these differences were significant. On alfalfa the loss of xylem sap due to feeding caused a consistent general reduction of proteins, fat and ash content and an increase in dry matter and nitrogen free extract. Of these constituents only the increase in dry matter was significant with an infestation of 150 spittlebugs per cage. No differences in dry matter, proteins and fat were significant. Another test on 4 month old alfalfa with infestation levels of 0, 100, 200 and 300 showed similar consistent patterns but the difference in dry matter was significant only when the infestation was 200 spittlebugs or more. On birdsfoot trefoil there was a consistent increase of dry matter, proteins, and ash and reduction of fat and crude fiber. Only the difference of dry matter and fats was consistent showing that an infestation of 100 or more spittlebugs per sq ft will affect the general growth of the plants. The survival of 1st instar nymphs of the pea aphid (a phloem feeder) was very poor on birdsfoot trefoil. There was a fair amount of survival on red clover and those on alfalfa survived fully. There was no visible symptoms on birdsfoot trefoil and red clover but the alfalfa showed retarded growth. On red clover there was a consistent increase of dry matter, fat, crude fiber and nitrogen free extract but a reduction of proteins. The difference in crude fiber was significant when the infestation was 1000 pea aphid nymphs or more. A consistent reduction of proteins and crude fiber was also recorded on alfalfa but these differences were not significant. On birdsfoot trefoil, there was a decrease in dry matter and an increase in fat and ash content. The difference in ash content was significant when the infestation of pea aphid nymphs was 1000 or more. Potato leafhopper (phloem feeder) injury was very characteristic on birdsfoot trefoil. The terminal 1 to 2 inches of the sterns became wilted and bent down. On alfalfa there was gradual yellowing and the retarded growth was evident. The red clover did not show any characteristic symptoms. Infestations of 20 or more caused a consistent increase in protein, fat, crude fiber and a reduction of nitrogen free extract. On alfalfa there was consistent decrease in dry matter. On birdsfoot trefoil, there was consistent increase in dry matter, fat, and nitrogen free extract but a reduction of crude fiber showing that feeding on birdsfoot trefoil probably retards growth and condensation of carbohydrates to form crude fibers. The increase in fat was significant when the infestation was 40 potato leafhoppers or more. Alfalfa weevil adult feeding caused characteristic stripping of leaves, girdling of stem and drying of the entire plant. Feeding of 10 or more weevils for 18 days on a two month growth of alfalfa after the 1st cutting, cause a consistent reduction of proteins, fat and crude fiber and an increase of dry matter, ash, and nitrogen free extract. Increase of percent dry matter was significant when the infestation of alfalfa weevil adults was 20 or more. In another test, the dry matter, fat and ash gave similar consistent results, when 40, 60, and 80 adults were fed on 4 month old alfalfa for 18 days. Reduction of percent fat was significant when the infestation was 40 or more alfalfa weevil adults. Alfalfa weevil larval feeding showed stripping of the leaves and buds. Infestation of 30 or less, 2nd to 4th instar larvae for 12 days caused a consistent reduction of fat and ash and an increase of dry matter, proteins and crude fiber. The infestation was not high enough to show a significant change in plant constituents. / Ph. D.

LD5655.V856 1964.M374

Alfalfa -- Diseases and pests

Lotus corniculatus -- Diseases and pests

Red clover -- Diseases and pests

Integrated small broomrape (Orobanche minor Sm.) management in red clover (Trifolium pratense L.)

Ross, Kyle C.

04 March 2003

Small broomrape, a holoparasitic weed, is a relatively new weed introduction in the Pacific Northwest that has contaminated a limited number of red clover fields in Oregon. Greenhouse and field studies were conducted to evaluate small broomrape response to common crop and weed species in the Pacific Northwest. Host species in the greenhouse or field study included alfalfa, arrowleaf clover, carrot, celery, common vetch, crimson clover, lettuce, prickly lettuce, red clover, spotted catsear, subterranean clover, white clover, and wild carrot. False-host species included barley, birdsfoot trefoil, creeping bentgrass, cucumber, field corn, fine fescue, flax, Italian ryegrass, nasturtium, oat, orchardgrass, perennial ryegrass, snap bean, sugar pea, sunflower, sweet corn, tall fescue, tomato, and wheat. Non-host species included sugar beet and curly dock. The greenhouse polyethylene bag system provided a rapid and inexpensive screening for plant species host status to small broomrape. Germination and attachment to host roots are initiated by chemical exudates, that may change concentration in response to nutrient availability and microorganisms. Red clover was grown in varying concentrations of ammonium sulfate fertilizer with and without Rhizobium inoculation, and with small broomrape seeds. Neither Rhizobium inoculation nor ammonium concentration influenced the number of small broomrape attachments to red clover roots. A survey was conducted of red clover seed growers with small broomrape-contaminated fields in the Pacific Northwest. Red clover seed from six respondents were cleaned at the same cleaning facility, and the same respondents purchased their seed stock from this cleaning facility. Small broomrape was not identified in red clover fields prior to or during the first clover seed harvest of fall planted red clover in small broomrape-contaminated sites. / Graduation date: 2003

Broomrapes -- Oregon

Weeds -- Control -- Oregon

Parasitic plants -- Control -- Oregon

Host-parasite relationships