Challenges in bermudagrass production in the southeastern USA

Lisa L. Baxter; William F. Anderson; Roger N. Gates; Esteban F. Rios; Justin C. Burt

doi:10.1002/glr2.12092

Grassland Research ›› 2024, Vol. 3 ›› Issue (2) : 123 -131. DOI: 10.1002/glr2.12092

REVIEW ARTICLE

Challenges in bermudagrass production in the southeastern USA

Author information +

History +

PDF

Abstract

Bermudagrass (Cynodon dactylon (L.) Pers.) is one of the primary perennial forages in the southeastern USA. Newer hybrid cultivars have superior production and nutritive value compared to common ecotypes. However, there are many challenges facing bermudagrass production in the region. First, the bermudagrass stem maggot (BSM; Atherigona reversura Villeneuve) has severely damaged bermudagrass throughout the region. Strategically timed pyrethroid applications significantly reduce adult BSM populations, but efforts are needed to develop integrated pest management plans. Second, an increasing number of producers are noting challenges with green-up following winter dormancy. This may be attributed to disease, unbalanced soil fertility, and weed pressure. Perhaps one of the most limiting factors for continued production is the deficit of sprigs and trained personnel to sprig hybrid bermudagrasses. This research is critically important as the need for cold-tolerant bermudagrass is increasing as tall fescue (Lolium arundinaceum (Schreb.) S. J. Darbyshire) is declining due to changes in temperature and precipitation throughout the northern parts of the region. Plant breeders are investigating hybrid bermudagrass at latitudes >35° with respect to freeze or cold tolerance. Despite the many challenges facing hybrid bermudagrass in the southeastern USA, researchers are working to ensure its persistence, productivity, and availability for the future.

Keywords

bermudagrass stem maggot / cold tolerance / Cynodon / green-up / hay

Cite this article

Download citation ▾

Lisa L. Baxter, William F. Anderson, Roger N. Gates, Esteban F. Rios, Justin C. Burt. Challenges in bermudagrass production in the southeastern USA. Grassland Research, 2024, 3(2): 123-131 DOI:10.1002/glr2.12092

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Adams, W. E., & Twersky, M. (1960). Effect of soil fertility on winter killing of Coastal bermudagrass. Agronomy Journal, 52(6), 325–326.

[2]	Anderson, J. A., Taliaferro, C. M., & Wu, Y. Q. (2007). Freeze tolerance of seed- and vegetatively-propagated bermudagrasses compared with standard cultivars. Applied Turfgrass Science, 4(1), 1–7.

[3]	Anderson, J. A., & Wu, Y. Q. (2011). Freeze tolerance of forage bermudagrasses. Grass and Forage Science, 66(3), 449–452.

[4]	Anderson, W., Parker, M. B., Knoll, J. E., & Lacy, R. C. (2016). Fertilization ratios of N–P₂O₅–K₂O for Tifton 85 bermudagrass on two coastal plain soils. Agronomy Journal, 108(4), 1542–1551.

[5]	Anderson, W. F. (2005). Development of a forage bermudagrass (Cynodonsp.) core collection. Grassland Science, 51(4), 305–308.

[6]	Anderson, W. F. (2009). Cold hardy bermudagrass research. Georgia Mountain Beef Cattle Field Day.

[7]	Anderson, W. F., Baxter, L., Gates, R., & Rios, E. (2023). Genetic improvement of bermudagrass for hay producers. In The 2023 International Grassland Congress Proceedings, Covington, KY. International Grassland Congress.

[8]

Anderson, W. F., Hancock, D., Baxter, L., Hudson, W., & Rios, E. F. (2021). Screening and breeding for bermudagrass stem maggot (BSM) resistance within U.S. Germplasm. In 24th International Grassland Conference Proceedings of International Grassland Congress, Nairobi, Kenya. International Grassland Congress.

[9]	Anderson, W. F., Powell, J., Hanna, W. W., Burton, G., & Davis, M. (2024). Registration of ’Coastcross II’ forage bermudagrass. Journal of Plant Registrations, 18(2), 250–253.

[10]	Andrae, J., Martinez, A., & Morgan, R. (2009). Leaf spot diagnosis and management in bermudagrass forages. University of Georgia. https://secure.caes.uga.edu/extension/publications/files/pdf/C%20887_4.PDF

[11]	Ball, D. M., Eichhorn, M. M., Burdett, R. A., & Bice, D. M. (1996). Registration of ’Russell’ bermudagrass. Crop Science, 36(2), 467.

[12]	Baxter, L. L. (2023). Bermudagrass forage production guide. University of Georgia Forage Extension.

[13]	Baxter, L. L., Anderson, W. F., Gates, R., & Rios, E. F. (2023). Overcoming challenges in bermudagrass production in the southeastern US. In 25th International Grassland Conference Proceedings of International Grassland Congress, Covington, KY. International Grassland Congress.

[14]	Baxter, L. L., Anderson, W. F., Gates, R. N., Rios, E. F., & Hancock, D. W. (2022). Moving warm-season forage bermudagrass (Cynodon spp.) into temperate regions of North America. Grass and Forage Science, 77(2), 141–150.

[15]

Baxter, L. L., Anderson, W. F., Hancock, D. W., Hudson, W. G., & Prevatt, C. G. (2020). Reviewing the first decade of bermudagrass stem maggot research. In 76th Annual American Forage and Grassland Conference Proceedings of American Forage and Grassland Council, Greenville, SC. American Forage and Grassland Council.

[16]	Baxter, L. L., Anderson, W. F., Hudson, W. G., Hancock, D. W., Prevatt, C. G., & Moore, Z. (2019). Quantifying the damage potential of the bermudagrass stem maggot. Crop Science, 59(5), 2280–2286.

[17]	Baxter, L. L., Anderson, W. F., Hudson, W. G., Rios, E. F., Bowling, C. H., Hancock, D. W., Gates, R. N., & Burt, J. C. (2024). Improved management of the bermudagrass stem maggot (Atherigona reversura Villeneuve). Crop, Forage, & Turfgrass Management, 10, e20269.

[18]	Baxter, L. L., Hancock, D. W., & Hudson, W. G. (2014). The bermudagrass stem maggot (Atherigona reversura Villeneuve): A review of current knowledge. Forage & Grazinglands, 12(1), 1–8.

[19]	Baxter, L. L., Hancock, D. W., Hudson, W. G., Anderson, W. F., & Tucker, J. J. (2017). Managing bermudagrass stem maggots. University of Georgia. https://secure.caes.uga.edu/extension/publications/files/pdf/B%201484_2.PDF

[20]	Baxter, L. L., Hancock, D. W., Hudson, W. G., Dillard, S. L., Anderson, W. F., & Schwartz, B. M. (2015). Response of selected bermudagrass cultivars to bermudagrass stem maggot damage. Crop Science, 55(6), 2682–2689.

[21]	Bowling, C. H. (2020). Impact of management practices on population dynamics of Atherigona reversura in Georgia bermudagrass [Master’s thesis, University of Georgia]. UGA Library. https://www.proquest.com/docview/2489772122?pq-origsite=gscholar&fromopenview=true

[22]	Burton, G. (1951). Intra- and inter-specific hybrids in bermudagrass. Journal of Heredity, 42(3), 153–156.

[23]	Burton, G. W. (1947). Breeding Bermuda grass for the southeastern United States. Agronomy Journal, 39(7), 551–569.

[24]	Burton, G. W. (1948). Coastal bermudagrass. University of Georgia.

[25]	Burton, G. W. (1954). Coastal bermudagrass. Bulletin NS 2. Georgia Agricultural Experiment Station.

[26]	Burton, G. W. (1956). Utilization of heterosis in pasture plant breeding. In Seventh International Grassland Conference Proceedings of International Grassland Congress, Palmerston North, New Zealand. International Grassland Congress.

[27]	Burton, G. W. (1959). Principles of breeding vegetatively propagated plants. In 10th International Society of Sugarcane Technologists Proceedings of International Society of Sugarcane Technologists. Honolulu, HI.

[28]	Burton, G. W., Gates, R. N., & Hill, G. M. (1993). Registration of ’Tifton 85’ bermudagrass. Crop Science, 33(3), 644–645.

[29]	Burton, G. W., & Monson, W. G. (1978). Registration of Tifton 44 bermudagrass. Crop Science, 18(5), 911.

[30]	Chamblee, D. S., Mueller, J. P., & Timothy, D. H. (1989). Vegetative establishment of three warm-season perennial grasses in late fall and late winter. Agronomy Journal, 81(4), 687–691.

[31]	Dyer, L. M., Henry, G. M., McCullough, P. E., Belcher, J., & Basinger, N. T. (2024). Evaluation of herbicide programs for the control of knotroot foxtail [Setaria parviflora (Poir.) kerguélen] in bermudagrass pasture. Weed Technology, 38, 1–20.

[32]	Frankson, R., Kunkel, K. E., Stevens, L. E., Stewart, B. C., Sweet, W., Murphey, B., & Rayne, S. (2022). Georgia State Climate Summary 2022 (p. 5). NOAA Technical Report NESDIS 150-GA. NOAA/NESDIS.

[33]	Gilbert, W. B., & Davis, D. L. (1971). Influence of fertility ratios on winter hardiness of Bermudagrass1. Agronomy Journal, 63(4), 591–593.

[34]	Giolo, M., Sallenave, R., Pornaro, C., Velasco-Cruz, C., Macolino, S., & Leinauer, B. (2021). Base temperatures affect accuracy of growing degree day model to predict emergence of bermudagrasses. Agronomy Journal, 113(3), 2960–2966.

[35]	Grey, T. L., & Newsom, L. J. (2017). Winter wheat response to weed control and residual herbicides. In R. Wanyera & J. Owuoche (Eds.), Wheat improvement, management and utilization. IntechOpen.

[36]	Grossman, A. Y., Andrade, M. H. M. L., Chaves, A. L. A., Mendes Ferreira, M. T., Techio, V. H., Lopez, Y., Begcy, K., Kenworthy, K. E., & Rios, E. F. (2021). Ploidy level and genetic parameters for phenotypic traits in bermudagrass (Cynodon spp.) germplasm. Agronomy, 11(5), 912.

[37]	Grzywacz, A., Pape, T., Hudson, W. G., & Gomez, S. (2013). Morphology of immature stages of Atherigona reversura (Diptera: Muscidae), with notes on the recent invasion of North America. Journal of Natural History, 47(15–16), 1055–1067.

[38]	Hanberry, B., & Fraser, J. (2019). Visualizing current and future climate boundaries of the conterminous United States: Implications for forests. Forests, 10, 280.

[39]	Hanna, W. W., & Anderson, W. F. (2008). Development and impact of vegetative propagation in forage and turf bermudagrasses. Agronomy Journal, 100(S3), S103–S107.

[40]	Harlan, J. R. (1970). Cynodon species and their value for grazing and hay. Herbage Abstracts, 40, 233–238.

[41]	Harlan, J. R., & de Wet, J. M. J. (1969). Sources of variation in Cynodon dactylon (L). Pers. Crop Science, 9(6), 774–778.

[42]	Harris, H. E., & Roark, C. B. (1954). Methods of planting Coastal bermudagrass. Agricultural Experiment Station. https://repository.lsu.edu/cgi/viewcontent.cgi?article=1590&context=agexp

[43]	Heap, I. M. (2024). International survey of herbicide resistant weeds. http://www.weedscience.org

[44]	Holt, E. C., Potts, R. C., & Fudge, J. F. (1951). Bermudagrass research in Texas. Texas Agricultural Experiment Station Circular, 129, 5–25.

[45]	Huber, D. M., & Arny, D. C. (1985). Interactions of potassium with plant disease. In R. D. Munson (Ed.), Potassium in agriculture (pp. 467–488). ASA, CSSA and SSA.

[46]	Hurdle, N. L., Grey, T. L., McCullough, P. E., Shilling, D., & Belcher, J. (2020). Bermudagrass tolerance of indaziflam PRE applications in forage production. Weed Technology, 34(1), 125–128.

[47]	Jeffries, M. D., Gannon, T. W., & Yelverton, F. H. (2017). Herbicide inputs and mowing affect vaseygrass (Paspalum urvillei) control. Weed Technology, 31(1), 120–129.

[48]	Keisling, T. C. (1980). Bermudagrass rhizome initiation and longevity under differing potassium nutritional levels. Communications in Soil Science and Plant Analysis, 11(6), 629–635.

[49]	Keisling, T. C., Rouquette, F. M., & Matocha, J. E. (1979). Potassium fertilization influences on Coastal bermudagrass rhizomes, roots, and stand1. Agronomy Journal, 71(5), 892–894.

[50]	Knox, P., & Griffin, M. (2016). Climate trends in the Southeast. Southeast Climate. AgroClimate. http://agroclimate.org/wp-content/uploads/2016/03/Precipitation-Trends.pdf

[51]	Kresge, C. B. (1974). Effect of fertilization on winterhardiness of forages. In D. A. Mays (Ed.), Forage fertilization (pp. 437–453). ASA, CSSA, and SSSA.

[52]	Leath, K. T., & Ratcliffe, R. H. (1974). The effect of fertilization on disease and insect resistance. In D. A. Mays (Ed.), Forage fertilization (pp. 481–503). ASA, CSSA, and SSSA.

[53]	Matocha, J. E., & Smith, L. (1980). Influence of potassium on Helminthosporium cynodontis and dry matter yields of ‘Coastal’ bermudagrass. Agronomy Journal, 72(3), 565–567.

[54]	McCullough, P. (2015). Annual ryegrass control in Georgia hayfields. University of Georgia. https://extension.uga.edu/publications/detail.html?number=C1078

[55]	Miller, G. L., & Dickens, R. (1996). Bermudagrass carbohydrate levels as influenced by potassium fertilization and cultivar. Crop Science, 36(5), 1283–1289.

[56]

Mislevy, P., Brown, W. F., Caro-Costas, R., Vicente-Chandler, J., Dunavin, L. S., Hall, D. W., Kalmbacher, R. S., Overman, A. J., Ruelke, O. C., Sonoda, R. M., Sotomayor-Rios, A., Stanley, Jr., R. L., & Williams, M. J. (1989). ‘Florico’ stargrass. University of Florida. https://rcrec-ona.ifas.ufl.edu/media/rcrec-onaifasufledu/pdf/publications/florico-stargrass.pdf

[57]

Mislevy, P., Brown, W. F., Dunavin, L. S., Hall, D. W., Kalmbacher, R. S., Overman, A. J., Ruelke, O. C., Sonoda, R. M., Sotomayor-Rios, A., Stanley, Jr., R. L., & Williams, M. J. (1989). ‘Florona’ stargrass. University of Florida. https://rcrec-ona.ifas.ufl.edu/media/rcrec-onaifasufledu/pdf/publications/florona-stargrass.pdf

[58]	Myers, W. M. (1951). Registration of varieties and strains of bermudagrass (Cynodon dactylon (L) Pers.). Agronomy Journal, 43(5), 240.

[59]	Quinn, R. (2023). Fertilizer prices moving in two different directions. DTN Progressive Farmer. https://www.dtnpf.com/agriculture/web/ag/crops/article/2023/10/04/fertilizers-moving-two-different#:∼:text=Since%202020%2C%20the%20price%20reported,in%20both%202022%20and%202023

[60]	Read, J. J., & Pratt, R. G. (2012). Potassium influences forage bermudagrass yield and fungal leaf disease severity in Mississippi. Forage & Grazinglands, 10(1), 1–11.

[61]	Richardson, M. D., & Croughan, S. S. (1989). Potassium influence on susceptibility of bermudagrass to Helminthosporium cynodontis toxin. Crop Science, 29(5), 1280–1282.

[62]

Rios, E. F., Lopez, Y., Munoz, P., Dubeux, J. C. B., Vendramini, J. M. B., Wallau, M., Grossman, A. J., Anderson, W., Baxter, L., Harris-Shultz, K., Castillo, M. S., Saha, M. C., Quesenberry, K., Blount, A., Reith, P., & Kenworthy, K. (2023). ‘Newell’ bermudagrass: A public release from the USDA Cynodon collection. Journal of Plant Registrations, 17(3), 605–615.

[63]

Rusch, H. L., Mendoza Mahomar, A. C., Lopez, Y., Andrade, M. H., Maltais-Landry, G., Rios, E. F., & Wilson, C. H. (2023). Nitrogen fertilization and genotype jointly drive bermudagrass (Cynodon spp.) productivity but are not associated with differences in SOC. Agrosystems. Geosciences & Environment, 6(3), e20412.

[64]	Seay, R., & Slaton, N. A. (2008). Bermudagrass yield response to nitrogen and potassium fertilization in Northwest Arkansas. Forage & Grazinglands, 6(1), 1–7.

[65]	Secor, W., Baxter, L., & Hancock, G. (2024). Bermudagrass forage enterprise budget—Non-irrigated. University of Georgia Extension and Department of Agricultural and Applied Economics. https://agecon.uga.edu/extension/budgets.html

[66]	Segars, W. I., & Usherwood, N. R. (1997). Timing and rates of nitrogen, phosphorus and potassium for top yields of quality bermudagrass. Better Crops, 81, 21–23. http://www.ipni.net/publication/bettercrops.nsf/0/3CBD46CFC6D49488852579800082084C/$FILE/Better%20Crops%201997-2%20p21.pdf

[67]	Sellers, B. A., Rana, N., Dias, J. L. C., & Devkota, P. (2020). Smutgrass control in perennial grass pastures. University of Florida IFAS Extension. https://edis.ifas.ufl.edu/publication/AA261

[68]	Shay, N. J., Baxter, L. L., Basinger, N. T., Schwartz, B. M., & Belcher, J. (2022). Smutgrass (Sporobolus indicus) control in bahiagrass is improved with applications of herbicide and fertilizer. Weed Technology, 36(5), 700–707.

[69]

Simmons, D. (2017). Evaluating commercial cultivars and farm-collected biotypes of Italian ryegrass [Lolium perenne L. subsp. multiflorum (Lam.) Husnot] for potential herbicide resistance in Georgia [Master’s thesis, University of Georgia]. UGA Library. https://getd.libs.uga.edu/pdfs/simmons_danielle_b_201712_ms.pdf

[70]	de Souza, C., Lopez, Y., Munoz, P., Anderson, W., Dall’Agnol, M., Wallau, M., & Rios, E. (2020). Natural genetic diversity of nutritive value traits in the genus Cynodon. Agronomy, 10(11), 1729.

[71]

de Souza, C. H. L., Fernandes Filho, C. C., Canny, R. S., Sharma, N., Saha, M., Wallau, M. O., Anderson, W., Baxter, L., Harris-Shultz, K., & Rios, E. F. (2023). Unraveling phenotypic diversity in Cynodon spp. germplasm for forage accumulation and nutritive value in the transition zone. Crop Science, 63(2), 690–704.

[72]	Taliaferro, C. M., Roquette, Jr., F. M., & Mislevy, P. (2004). Bermudagrass and stargrass. In L. E. Moser (Ed.), Warm-season (C₄) grasses. ASA monograph 45 (pp. 417–475). ASA, CSSA, and SSSA.

[73]	UGA-AEMN. (2024, January 18). University of Georgia automated environmental monitoring network. University of Georgia. http://www.weather.uga.edu

[74]	Vendramini, J. M. B., Rios, E., Dubeux, J. C. B., Quesenberry, K., & Munoz, P. (2020). Registration of ‘Mislevy’ bermudagrass. Journal of Plant Registrations, 15(1), 7–15.

[75]	Webb, B. C. (1959). Comparison of water loss and survival of Coastal bermudagrass stolons harvested at two stages of growth. Agronomy Journal, 51(6), 367–368.

[76]	Wiggins, A. J., Burt, J. C., Baxter, L. L., & Anderson, W. F. (2024). Screening bermudagrass cultivars for bermudagrass stem maggot tolerance. In 80th Annual American Forage and Grassland Conference Proceedings of American Forage and Grassland Council. American Forage and Grassland Council.

[77]	Wilkinson, S. R., & Langdale, G. W. (1974). Fertility needs of the warm-season grasses. In D. A. Mays (Ed.), Forage fertilization (pp. 119–145). ASA, CSSA, and SSSA Books.