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Assessment of legume and nonlegume ground covers on Coleoptera: Coccinellidae density for low-input pecan management

Published online by Cambridge University Press:  30 October 2009

Natasha R. Rice ,
Michael W. Smith ,
Raymond D. Eikenbary ,
Don Arnold ,
W. Louis Tedders ,
Bruce Wood ,
B. Scott Landgraf ,
Glenn G. Taylor  and
Gordon E. Barlow
Natasha R. Rice
Affiliation:
Graduate student, Department of Horticulture and Landscape Architecture, Oklahoma State University, Stillwater, OK 74078;
Michael W. Smith*
Affiliation:
Professor, Department of Horticulture and Landscape Architecture, Oklahoma State University, Stillwater, OK 74078;
Raymond D. Eikenbary
Affiliation:
Professor, Department of Entomology, Oklahoma State University, Stillwater, OK 74078;
Don Arnold
Affiliation:
Survey Entomologist, Department of Entomology, Oklahoma State University, Stillwater, OK 74078;
W. Louis Tedders
Affiliation:
Entomologist, USDA-ARS Southeastern Fruit and Tree Nut Research Laboratory, Byron, GA 31008
Bruce Wood
Affiliation:
Horticulturist, USDA-ARS Southeastern Fruit and Tree Nut Research Laboratory, Byron, GA 31008;
B. Scott Landgraf
Affiliation:
Soil Scientist, Noble Foundation, Ardmore, OK 73402
Glenn G. Taylor
Affiliation:
Horticulturists, Noble Foundation, Ardmore, OK 73402.
Gordon E. Barlow
Affiliation:
Horticulturists, Noble Foundation, Ardmore, OK 73402.
*
Corresponding author is M.W. Smith: [email protected].
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Abstract

An annual legume cover crop was evaluated in pecan orchards to increase coccinellids that would reduce pecan aphids. Treatments were a ‘Dixie’ crimson clover and hairy vetch mixture and a grass sod. Coccinellids were abundant on the legume ground covers, but coccinellid density in the tree canopy was rarely affected by ground cover treatment. There were substantial differences between the coccinellid species collected from the legumes and from the trees. In Oklahoma, Olla v-nigrum (Mulsant) and Cycloneda munda (Say) were the main species in the trees, while Hippodamia convergens Guerin, Coccinella septempunctata L, and Coleomegilla maculata lengi Timberlake were dominant species in the legumes. In Georgia, Harmonia axyridis (Pallas) was the dominant species in the trees, and C. septempunctata in the legumes. Pecan aphids at two Oklahoma sites usually were not affected by cover crop treatment, but at the Georgia site, early-season aphids frequently were lower with a legume cover crop than with a grass sod. The accumulated effect of all aphid predators and parasitoids attracted to the legume aphids may have reduced the density of the pecan aphid.

Keywords

aphidAphididaebeneficial arthropodspecanCoccinellidaeFabaceaeground cover
Type
Articles
Information
American Journal of Alternative Agriculture , Volume 13 , Issue 3 , September 1998 , pp. 111 - 123
Copyright
Copyright © Cambridge University Press 1998

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References

1.Allison, F.E. 1957. Nitrogen and soil fertility. In USDA Yearbook of Agriculture. U.S. Govt. Printing Office, Washington, D.C. pp. 8594.Google Scholar
2.Allison, J.R., and Ott, S.L.. 1987. Economics of using legumes as a nitrogen source in conservation tillage systems. In Power, J.F. (ed). The Role of Legumes in Conservation Tillage Systems. Soil Conservation Soc. Amer., Ankeny, Iowa. pp. 145150.Google Scholar
3.Angalet, G.W., and Jacques, R.L.. 1975. The establishment of Coccinella septempunctata L. in the continental United States. Cooperative Economic Insect Report 25(27):883884.Google Scholar
4.Ball, J.C. 1981. Pesticide-induced differences in relative abundance of mites on pecans. J. Economic Entomology 74:425427.Google Scholar
5.Bugg, R.L., and Dutcher, J.D.. 1989. Warm-season cover crops for pecan orchards: Horticultural and entomological implications. Biological Agric. and Horticulture 6:123148.CrossRefGoogle Scholar
6.Bugg, R.L., and Dutcher, J.D.. 1993. Sesbania exaltata (Rafinesque-Schmaltz) Cory (Fabaceae) as a warm-season cover crop in pecan orchards: Effects on aphidophagous Coccinellidae and pecan aphids. Biological Agric. and Horticulture 9:215229.Google Scholar
7.Bugg, R.L., and Ellis, R.T.. 1990. Insects associated with cover crops in Massachusetts. Biological Agric. and Horticulture 7:4768.Google Scholar
8.Bugg, R.L., Phatak, S.C., and Dutcher, J.D.. 1990. Insects associated with cool-season cover crops in southern Georgia: Implications for pest control in truck-farm and pecan agroecosystems. Biological Agric. and Horticulture 7:1745.Google Scholar
9.Bugg, R.L., Dutcher, J.D., and McNeil, P.J.. 1991a. Cool-season cover crops in the pecan orchard understory: Effects on Coccinellidae (Coleoptera) and pecan aphids (Homoptera: Aphididae). Biological Control 1:815.CrossRefGoogle Scholar
10.Bugg, R.L., Sarrantonio, M., Dutcher, J.D., and Phatak, S.C.. 1991b. Understory cover crops in pecan orchards: Possible management systems. Amer. J. Alternative Agric. 6:5062.Google Scholar
11.Cartwright, B.O., Eikenbary, R.D., Angalet, G.W., and Campbell, R.K.. 1979. Release and establishment of Coccinella septempunctata in Oklahoma. Environmental Entomology 8:819823.Google Scholar
12.Chapin, J.B., and Brou, V.A.. 1991. Harmonia axyridis (Pallas), the third species of the genus to be found in the United States (Coleoptera: Coccinellidae). Proc. Entomological Soc. Washington 93:630635.Google Scholar
13.Dreistadt, S.H., Hagen, K.S., and Bezark, L.G.. 1995. Harmonia axyridis (Pallas) (Coleoptera: Coccinellidae), first western United States record for this Asiatic lady beetle. Pan-Pacific Entomologist 71:135136.Google Scholar
14.Dutcher, J.D. 1983. Carbaryl and aphid resurgence in pecan orchards. J. Georgia Entomological Soc. 18:492495.Google Scholar
15.Dutcher, J.D., and Htay, U.T.. 1985. Resurgence and insecticide resistance problems in pecan aphid management. In Neel, W.W., Tedders, W.L., and Dutcher, J.D. (eds). Aphids and Phylloxeras of Pecan. Spec. Pub. 38. Georgia Agric. Exp. Sta., Athens, Georgia, pp. 1729.Google Scholar
16.Dutcher, J.D., and Payne, J.A.. 1983. Impact assessment of carbaryl, dimethoate, and dialifor on foliar and nut pests of pecan orchards. J. Georgia Entomological Soc. 18:495507.Google Scholar
17.Edelson, J.V. 1982. Seasonal abundance, distribution and factors affecting population dynamics of yellow pecan aphids (Monellia caryella and Monelliopsis nigropunctata). Ph.D. thesis. Dept. of Entomology, Auburn Univ., Auburn, Alabama.Google Scholar
18.Edelson, J.V., and Estes, P.M.. 1987. Seasonal abundance and distribution of predators and parasites associated with Monelliopsis pecanis Bissell and Monellia caryella (Fitch)(Homoptera: Aphidae [sic]). J. Entomological Sci. 22:336347.Google Scholar
19.Ewert, M.A., and Chiang, H.C.. 1966. Dispersal of three species of coccinellids in corn fields. Canadian Entomologist 98:9991001.Google Scholar
20.Flores, R.J.F. 1981. sA comparison of field population dynamics in relation to developmental time and fecundity under laboratory conditions of the foliage aphid species complex on pecan. Ph.D. thesis. Dept. of Entomology, Texas A&M Univ., College Station.Google Scholar
21.Gordon, R.D. 1985. The Coleoptera (Coccinellidae) of America north of Mexico. J. New York Entomological Soc. 93:1912.Google Scholar
22.Gossard, A.C., and Hammar, H.E.. 1957. Differential potassium fertilization of pecan trees combined with summer cultivation and sod systems of orchard management. Proc. Southeastern Pecan Growers' Assoc. 50:5160.Google Scholar
23.Hodek, I. (ed). 1966. Ecology of Aphidophagous Insects. Proc. Symp. Liblice near Prague, 1965. Academia, Prague, and Dr. W. Junk, The Hague.Google Scholar
24.Hodek, I. (ed). 1973. Biology of Coccinellidae. Dr. W. Junk, The Hague, and Academia, Prague.Google Scholar
25.Ipert, G. 1965. Contributions a l'étude de la spécificité chez les principales Coccinelles aphidiphages des Alpes-Maritimes et des Basses-Alpes. Entomophaga 10:159178.Google Scholar
26.Kidd, K.A., Nalepa, C.A., Day, E.R., and Waldvogel, M.G.. 1995. Distribution of Harmonia axyridis (Pallas) (Coleoptera: Coccinellidae) in North Carolina and Virginia. Proc. Entomological Soc. Washington 97:729731.Google Scholar
27.LaRock, D.R., and Ellington, J.J.. 1996. An integrated pest management approach, emphasizing biological control, for pecan aphids. Southwestern Entomologist 21:153166.Google Scholar
28.Liao, H.T., Harris, M.K., Gilstrap, F.E., Dean, D.A., Agnew, C.W., Michels, G.J., and Mansour, F.. 1984. Natural enemies and other factors affecting seasonal abundance of the blackmargined aphid on pecans. Southwestern Entomologist 9:404420.Google Scholar
29.Liao, H.T., Harris, M.K., Gilstrap, F.E., and Mansour, F.. 1985. Impact of natural enemies on the blackmargined pecan aphid, Monellia caryella (Homoptera: Aphidae). Environmental Entomology 14:122126.Google Scholar
30.Mizell, R.F. III. 1991. Pesticides and beneficial insects: Application of current knowledge and future needs. In Wood, B.W. and Payne, J.A. (eds.). Pecan Husbandry: Challenges and Opportunities. First National Pecan Workshop Proceedings. ARS-96. Agric. Research Service, U.S. Dept. of Agriculture, Springfield, Virginia, pp. 4754.Google Scholar
31.Mizell, R.F. III, and Schiffhauer, D.E.. 1987. Seasonal abundance of the crapemyrtle aphid, Sarucallis kahawaluokalani, in relation to the pecan aphids, Monellia caryella and Monelliopsis pecanis and their common predators. Entomophaga 32:511520.Google Scholar
32.Neel, W.W., Tedders, W.L., and Dutcher, J.D.. 1985. Aphids and phylloxeras of pecan. Spec. Pub. 38. Georgia Agric. Exp. Sta., Athens, Georgia.Google Scholar
33.Ott, S.L. 1987. An economic and energy analysis of crimson clover as a nitrogen fertilizer substitute in grain sorghum production. In Power, J.F. (ed). The Role of Legumes in Conservation Tillage Systems. Soil Conservation Soc. Amer., Ankeny, Iowa. pp. 150151.Google Scholar
34.Payne, J.A., Malstrom, H.L., and KenKnight, G.E.. 1979. Insect pests and diseases of the pecan. Reviews and Manuals ARM-S 5. Science and Education Admin., U.S. Dept. of Agriculture, New Orleans, Louisiana.Google Scholar
35.Schaefer, P.W., Dysart, R.J., and Specht, H.B.. 1987. North American distribution of Coccinella septempunctata (Coleoptera: Coccinellidae) and its mass appearance in coastal Delaware. Environmental Entomology 16:368373.Google Scholar
36.Shepard, M. 1973. Seasonal incidence and vertical distribution of aphids and beneficial arthropods on pecan trees. Proc. Southeastern Pecan Growers' Assoc. 66:153159.Google Scholar
37.Smith, B.C. 1960. A technique for rearing coccinellid beetles on dry foods, and influence of various pollens on the development of Coleomegilla maculata lengi Timb. (Coleoptera: Coccinellidae). Canadian J. Zoology 38:10471049.Google Scholar
38.Smith, M.W., Eikenbary, R.D., Arnold, D.C., Landgraf, B.S., Taylor, G.G., Barlow, G.E., Carroll, B.L., Cheary, B.S., Rice, N.R. and Knight, R.. 1994. Screening cool-season legume cover crops for pecan orchards. Amer. J. Alternative Agric. 9:127134.CrossRefGoogle Scholar
39.Smith, M.W., Arnold, D.C., Eikenbary, R.D., Rice, N.R., Shiferaw, A., Cheary, B.S., and Carroll, B.L.. 1996a. Influence of ground cover on beneficial arthropods in pecan. Biological Control 6:164176.Google Scholar
40.Smith, M.W., Shiferaw, A., and Rice, N.R.. 1996b. Legume ground covers as a nitrogen source in pecan. J. Plant Nutrition 19:11111124.Google Scholar
41.Tedders, W.L. 1978. Important biological and morphological characteristics of the foliar-feeding aphids of pecans. Tech. Bull. 1579. Agric. Research Service, U.S. Dept. of Agriculture, Washington, D.C.Google Scholar
42.Tedders, W.L. 1983. Insect management in deciduous orchard ecosystems: Habitat manipulation. Environmental Management 7:2934.Google Scholar
43.Tedders, W.L., and Schaefer, P.W.. 1994. Release and establishment of Harmonia axyridis (Coleoptera: Coccinellidae) in the southeastern United States. Entomological News 105:228243.Google Scholar
44.Tedders, W.L., and Wood, B.W.. 1985. Estimates of the influence of feeding by Moneliopsis pecanis and Monellia caryella on the fruit foliage carbohydrate reserves, and tree productivity of mature “Stuart” pecans. J. Economic Entomology 78:642646.CrossRefGoogle Scholar
45.Tedders, W.L., Wood, B.W., and Snow, J.W.. 1982. Effects of feeding by Monelliopsis nigropunctata (Granovsky), Monellia caryella (Fitch), and Melanocallis caryaefoliae (Davis) on the growth of pecan seedlings in the greenhouse. J. Economic Entomology 75:287291.Google Scholar
46.Ware, L.M., and Johnson, W.A.. 1958. Certain relationships between fertilizer and cultural practices, nitrate and moisture content of the oil, and responses to pecan trees. Proc. Southeastern Pecan Growers' Assoc. 51:1017.Google Scholar
47.Watterson, G.P., and Stone, J.D.. 1982. Parasites and blackmargined aphids and their effect on aphid populations in far-west Texas. Environmental Entomology 11:667669.Google Scholar
48.White, A.W., Beaty, E.R., and Tedders, W.L.. 1981. Legumes for supplying nitrogen and studies on legumes in pecan orchards. Pecan South 8(4):2431.Google Scholar
49.Wood, B.W., and Tedders, W.L.. 1982. Effects of an infestation of blackmargined aphid on carbohydrates in mature “Stuart” pecan. Hort-Science 17:236238.Google Scholar
50.Wood, B.W., and Tedders, W.L.. 1986. Reduced net photosynthesis of leaves from mature pecan trees by three species of pecan aphid. J. Entomological Sci. 21:355360.Google Scholar
51.Wood, B.W., White, W., and Tedders, W.L.. 1983. Use of legumes in pecan orchards. Annual Report Northern Nut Growers' Assoc. 74:147150.Google Scholar
52.Wood, B.W., Tedders, W.L., and Thompson, J.M.. 1985. Feeding influence of three pecan aphid species on carbon exchange and phloem integrity of seedling pecan foliage. J. Amer. Soc. Horticultural Sci. 110:393397.CrossRefGoogle Scholar
53.Wood, B.W., Tedders, W.L., and Reilly, C.C.. 1988. Sooty mold fungus on pecan foliage suppresses light penetration and net photosynthesis. Hort-Science 23:851853.Google Scholar