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Growth, Reproduction and Chemical Composition of Horsenettle (Solanum carolinense)

Published online by Cambridge University Press:  12 June 2017

Robert L. Nichols
Affiliation:
Univ. Ga., Coastal Plain Exp. Stn., Tifton, GA 31793
John Cardina
Affiliation:
Univ. Ga., Coastal Plain Exp. Stn., Tifton, GA 31793
T. Powell Gaines
Affiliation:
Univ. Ga., Coastal Plain Exp. Stn., Tifton, GA 31793

Abstract

Horsenettle was described quantitatively in two grazed bermudagrass pastures for two years. Six times from April through October, plants were counted, phenologically documented, and tops were harvested for estimation of above-ground phytomass. Roots were sampled for carbohydrate, N fraction, and macronutrient analyses. Top growth, flowering, fruiting, and chemical composition were similar between sites within years, but differed between years. Starch and total non-structural carbohydrates in roots increased following reproductive periods both years. Root concentrations of protein and non-protein N increased and concentrations of P decreased in August and September in one year only. Analysis of the relationship between seasonal trends in carbohydrate fluctuation and pasture management practices suggests that systemic herbicide application in mid-summer may lead to more effective control than application in spring.

Type
Research
Copyright
Copyright © 1991 Weed Science Society of America 

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References

Literature Cited

1. Banks, P. A., and Santelmann, P. W. 1978. Influence of subsurface layered herbicides on horsenettle (Solanum carolinense) and various crops. Agron. J. 70:58.CrossRefGoogle Scholar
2. Banks, P. A., Kirby, M. A., and Santelmann, P. W. 1977. Influence of postemergence and subsurface layered herbicides on horsenettle and peanuts. Weed Sci. 25:58.CrossRefGoogle Scholar
3. Calhoun, J. W. 1983. Soil survey of Tift County Georgia. USDA Soil Conserv. Serv. Google Scholar
4. D'Arcy, W. 1974. Solomon and its close relatives in Florida. Ann. Mo. Bot. Gard. 61:819869.CrossRefGoogle Scholar
5. Gaines, T. P. 1973. Automated determination of reducing sugars, total sugars, and starch from one weighed sample. J. Assoc. Anal. Chem. 56: 14191424.Google Scholar
6. Gaines, T. P. 1977. Determination of protein nitrogen in plants. J. Assoc. Anal. Chem. 60:590593.Google Scholar
7. Gaines, T. P., and Mitchell, G. A. 1979. Chemical methods of soil and plant analysis. Univ. Ga. Coastal Plain Exp. Stn. Agron. Handb. No. 1.Google Scholar
8. Gorrell, R. M., Bingham, S. W., and Foy, C. L. 1981. Control of horsenettle (Solanum carolinense) fleshy roots in pastures. Weed Sci. 29:586589.CrossRefGoogle Scholar
9. Hackett, N. M., Murray, D. S., and Weeks, D. L. 1987. Interference of horsenettle (Solanum carolinense) with peanuts (Arachis hypogaea). Weed Sci. 35:780784.CrossRefGoogle Scholar
10. Ilnicki, R. D., Tisdell, T. F., Fertig, S. N., and Furrer, A. H. Jr. 1962. Life history studies as related to weed control in the Northeast. R. I. Agric. Exp. Stn. Bull. 368.Google Scholar
11. Mitchell, J. W., and Brown, J. W. 1946. Movement of 4-dichlorophenoxy acetic acid stimulus and its relation to the translocation of organic food materials in plants. Bot. Gaz. 107:393407.CrossRefGoogle Scholar
12. SAS Institute, Inc. 1982. SAS User's Guide: Statistics. SAS Inst. Inc., Cary, NC.Google Scholar
13. Smith, A. E., and Calvert, G. V. 1980. Factors influencing the control of horsenettle in perennial pastures. Univ. Ga. Res. Bull. 255.Google Scholar
14. Wehtje, G., Wilcut, J. W., Hicks, T. V., and Sims, G. R. 1987. Reproductive biology and control of Solanum diminiatum and Solanum carolinense . Weed Sci. 35:356359.CrossRefGoogle Scholar