Stability and purity of selected ryegrass Epichloë endophytes in New Zealand dairy pastures

David E. Hume; Dongwen Luo; Grant M. Rennie; Warren M. King; Anna L. Taylor; Marty J. Faville; Katherine N. Tozer

doi:10.1002/glr2.12078

Grassland Research ›› 2024, Vol. 3 ›› Issue (2) : 113 -122. DOI: 10.1002/glr2.12078

RESEARCH ARTICLE

Stability and purity of selected ryegrass Epichloë endophytes in New Zealand dairy pastures

Author information +

History +

PDF

Abstract

Background: Perennial ryegrass (Lolium perenne) in New Zealand pastures is typically infected with the mutualist Epichloë fungal endophyte. This endophyte assists the plant in resisting biotic and abiotic stresses, but the standard strain of endophyte is toxic to livestock. Elite ryegrasses with selected endophytes have been developed to provide protective properties to the grass plant and lessen or eliminate the negative impacts on livestock.

Methods: Using immunology and molecular techniques, the presence of endophyte infection and endophyte strain in ryegrass tillers was determined for 24 dairy pastures sampled for up to 7 years in regions of the North and South Islands.

Results: In general, infection levels were high and showed small increases over time. Some pastures failed to reach 70% infection. The sown, selected endophytes were the dominant endophyte strains present and these were stable over time. Standard endophyte was the primary nonsown endophyte, and while generally low and so of little importance, it increased over time and for some pastures, this would have been detrimental to livestock. Pasture establishment technique influenced the level of contamination.

Conclusions: Results reinforce the importance of following best practice procedures in the seed industry and on-farm. Researchers should monitor trials for contaminating nonsown standard endophyte.

Keywords

competition / Epichloë / Lolium perenne / pasture renewal / selected endophytes / toxicity

Cite this article

Download citation ▾

David E. Hume, Dongwen Luo, Grant M. Rennie, Warren M. King, Anna L. Taylor, Marty J. Faville, Katherine N. Tozer. Stability and purity of selected ryegrass Epichloë endophytes in New Zealand dairy pastures. Grassland Research, 2024, 3(2): 113-122 DOI:10.1002/glr2.12078

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]

Anderson, C. B., Franzmayr, B. K., Hong, S. W., Larking, A. C., van Stijn, T. C., Tan, R., Moraga, R., Faville, M. J., & Griffiths, A. G. (2018). Protocol: A versatile, inexpensive, high-throughput plant genomic DNA extraction method suitable for genotyping-by-sequencing. Plant Methods, 14(1), 75.

[2]	Bacon, C. W., Porter, J. K., Robbins, J. D., & Luttrell, E. S. (1977). Epichloë typhina from toxic tall fescue grasses. Applied and Environmental Microbiology, 34(5), 576–581.

[3]	Ball, D. M., Lacefield, G. D., & Hoveland, C. S. (2019). The wonder grass: The story of tall fescue in the United States. Oregon Tall Fescue Commission. https://aurora.auburn.edu/handle/11200/49449

[4]

Bluett, S. J., Thom, E. R., Dow, B. W., Burggraaf, V. T., Hume, D. E., Davies, E., & Tapper, B. A. (2004). Effects of natural reseeding and establishment method on contamination of a novel endophyte-infected perennial ryegrass dairy pasture with other ryegrass/endophyte associations. New Zealand Journal of Agricultural Research, 47(3), 333–344.

[5]	Burggraaf, V. T., & Thom, E. R. (2000). Contamination and persistence of endophyte-free ryegrass pastures established by spray-drilling, and intensively grazed by dairy cows in the Waikato region of New Zealand. New Zealand Journal of Agricultural Research, 43(2), 163–173.

[6]	Caradus, J. R. (2023). Epichloë fungal endophytes—A vital component for perennial ryegrass survival in New Zealand. New Zealand Journal of Agricultural Research, 1–18. In press.

[7]

Caradus, J. R., Chapman, D. F., Cookson, T., Cotching, B., Deighton, M. H., Donnell, L., Ferguson, J., Finch, S. C., Gard, S., Hume, D. E., Johnson, L. J., Kerr, G. A., Norriss, M. G., Peddie, K., & Popay, A. J. (2021). Epichloë endophytes—New perspectives on a key ingredient for resilient perennial grass pastures. In G. Douglas (Ed.), Resilient pastures—Grassland research and practice series (Vol. 17, pp. 57–70). New Zealand Grassland Association.

[8]	Caradus, J. R., Duder, R., Kerr, G. A., Stewart, A. V., & Thom, E. R. (2023). Mangere to mainstream—The story of a perennial ryegrass ecotype, a determined farmer, and a progressive seed company. New Zealand Journal of Agricultural Research, 1–17. In press.

[9]	Caradus, J. R., Goldson, S. L., Moot, D. J., Rowarth, J. S., & Stewart, A. V. (2021). Pastoral agriculture, a significant driver of New Zealand’s economy, based on an introduced grassland ecology and technological advances. Journal of the Royal Society of New Zealand, 53(3), 259–303.

[10]	Card, S. D., Faville, M. J., Simpson, W. R., Johnson, R. D., Voisey, C. R., De Bonth, A. C. M., & Hume, D. E. (2014). Mutualistic fungal endophytes in the Triticeae-survey and description. FEMS Microbiology Ecology, 88, 94–106.

[11]

Christensen, M. J., & Voisey, C. R. (2007). The biology of the endophyte/grass partnership. In A. J. Popay & E. R. Thom (Eds.), Proceedings of the 6th international symposium on fungal endophytes of grasses. Grassland research and practice series No. 13 (pp. 123–134). New Zealand Grassland Association.

[12]	Eady, C. (2021). The impact of alkaloid-producing Epichloë endophyte on forage ryegrass breeding: A New Zealand perspective. Toxins, 13(2), 158.

[13]	Eady, C. C., Corkran, J. R., Bailey, K. M., Kerr, G. A., & Nicol, A. M. (2017). Estimation of ergovaline intake of cows from grazed perennial ryegrass containing NEA2 or standard endophyte. Journal of New Zealand Grasslands, 79, 197–203.

[14]	Easton, H. S., Lane, G. A., Tapper, B. A., Keogh, R. G., Cooper, B. M., Blackwell, M., Anderson, M., & Fletcher, L. R. (1996). Ryegrass endophyte-related heat stress in cattle. Proceedings of the New Zealand Grassland Association, 57, 37–41.

[15]	Faville, M. J., Crush, J. R., Hong, W., Phillips, H., Lee, J. M., & Chapman, D. (2020). Effects of pasture age on the genotype and phenotype of perennial ryegrass. Grass and Forage Science, 75(2), 135–144.

[16]	Fletcher, L. R., & Harvey, I. C. (1981). An association of a Lolium endophyte with ryegrass staggers. New Zealand Veterinary Journal, 29, 185–186.

[17]	Francis, S. M., & Baird, D. B. (1989). Increase in the proportion of endophyte-infected perennial ryegrass plants in overdrilled pastures. New Zealand Journal of Agricultural Research, 32, 437–440.

[18]	Hewitt, K. G., Popay, A. J., Hofmann, R. W., & Caradus, J. R. (2021). Epichloë—A lifeline for temperate grasses under combined drought and insect pressure. Grass Research, 1, 1–12.

[19]	Hume, D. E., & Barker, D. J. (2005). Growth and management of endophytic grasses in pastoral agriculture. In C. A. Roberts, C. P. West, & D. E. Spiers (Eds.), Neotyphodium in cool-season grasses (pp. 201–226). Blackwell Publishing Ltd.

[20]	Hume, D. E., & Lyons, T. B. (1992). Establishment of new pastures free of ryegrass contamination. Proceedings of the New Zealand Grassland Association, 54, 151–156.

[21]	Hume, D. E., Rennie, G. M., King, W. M., Taylor, A. L., Faville, M. J., & Tozer, K. N. (2023). Stability and purity of Epichloë endophyte infection in New Zealand ryegrass pastures. International Grassland Congress.

[22]	Hume, D. E., Ryan, G. D., Gibert, A., Helander, M., Mirlohi, A., & Sabzalian, M. R. (2016). Epichloë fungal endophytes for grassland ecosystems. In E. Lichtfouse (Ed.), Sustainable agriculture reviews (Vol. 19, pp. 233–305). Springer International Publishing.

[23]	Hume, D. E., & Sewell, J. C. (2014). Agronomic advantages conferred by endophyte infection of perennial ryegrass (Lolium perenne L.) and tall fescue (Festuca arundinacea Schreb.) in Australia. Crop & Pasture Science, 65, 747–757.

[24]	Hume, D. E., Stewart, A. V., Simpson, W. R., & Johnson, R. D. (2020). Epichloë fungal endophytes play a fundamental role in New Zealand grasslands. Journal of the Royal Society of New Zealand, 50(2), 279–298.

[25]

Johnson, L. J., De Bonth, A. C. M., Briggs, L. R., Caradus, J. R., Finch, S. C., Fleetwood, D. J., Fletcher, L. R., Hume, D. E., Johnson, R. D., Popay, A. J., Tapper, B. A., Simpson, W. R., Voisey, C. R., & Card, S. D. (2013). The exploitation of epichloae endophytes for agricultural benefit. Fungal Diversity, 60, 171–188.

[26]	Johnson, L. J., & Caradus, J. R. (2019). The science required to deliver Epichloë endophytes to commerce. In T. R. Hodkinson, F. M. Doohan, M. J. Saunders, & B. R. Murphy (Eds.), Endophytes for a growing world (pp. 343–370). Cambridge University Press.

[27]	Jung, G. A., Van Wijk, A. J. P., Hunt, W. F., & Watson, C. E. (1996). Ryegrasses. In L. E. Moser, D. R. Buxton, & M. D. Casler (Eds.), Cool-season forage grasses (Vol. 34, pp. 605–641). ASA, CSSA and SSSA.

[28]	Kerr, G. A., Brown, J., Kilday, T., & Stevens, D. R. (2015). A more quantitative approach to pasture renewal. Journal of New Zealand Grasslands, 77, 251–258.

[29]	Luo, D., Ganesh, S., & Koolaard, J. (2021). Predict means: Calculate predicted means for linear models [R package version 1.0.6]. R Foundation for Statistical Computing. https://cran.r-project.org/web/packages/predictmeans/index.html

[30]

McNeill, M. R., Hume, D. E., Ashby, R., Ashby, M., Brandon, P., Guscott, P., Tosswill, B., & Barton, R. (2007). Ryegrass production in Wairarapa, New Zealand: Is biological control of Argentine stem weevil important? In A. J. Popay & E. R. Thom (Eds.), Proceedings of the 6th international symposium on fungal endophytes of grasses. Grassland research and practice series No. 13 (pp. 301–306). New Zealand Grassland Association.

[31]	Moon, C. D., Tapper, B. A., & Scott, B. (1999). Identification of Epichloë Endophytes in Planta by a microsatellite-based PCR fingerprinting assay with automated analysis. Applied and Environmental Microbiology, 65(3), 1268–1279.

[32]	Mortimer, P. H., Fletcher, L. R., Menna, M. E. D., Harvey, I. C., Smith, G. S., Barker, G. M., Gallagher, R. T., & White, E. P. (1982). Recent advances in ryegrass staggers. Proceedings of the Ruakura Farmers Conference, 34, 71–74.

[33]	Nixon, C. (2016). How valuable is that plant species? Application of a method for enumerating the contribution of selected plant species to New Zealand’s GDP. MPI Technical Paper No: 2016/62. https://www.mpi.govt.nz/dmsdocument/14527/direct

[34]	Payton, M. E., Greenstone, M. H., & Schenker, N. (2003). Overlapping confidence intervals or standard error intervals: What do they mean in terms of statistical significance? Journal of Insect Science, 3(1), 34.

[35]	Popay, A. J., Hume, D. E., Mace, W. J., Faville, M. J., Finch, S. C., & Cave, V. (2021). A root aphid Aploneura lentisci is affected by Epichloë endophyte strain and impacts perennial ryegrass growth in the field. Crop & Pasture Science, 72(2), 155–164.

[36]	Read, J. C., & Camp, B. J. (1986). The effect of the fungal endophyte Acremonium coenophialum in tall fescue on animal performance, toxicity, and stand maintenance. Agronomy Journal, 78(5), 848–850.

[37]	Reed, K. F. M. (2014). Perennial pasture grasses—An historical review of their introduction, use and development for Southern Australia. Crop & Pasture Science, 65(8), 691–712.

[38]

Rennie, G. M., King, W. M., Bell, N. L., & Eden, T. M. (2011). Delivering endophyte benefits on-farm: Pasture renewal success and effects on pest invertebrates. In C. F. Mercer (Ed.), Pasture persistence symposium. Grassland research and practice series No. 15 (Vol. 15, pp. 223–228). New Zealand Grassland Association.

[39]	Sartie, A. M., Matthew, C., Easton, H. S., & Faville, M. J. (2011). Phenotypic and QTL analyses of herbage production-related traits in perennial ryegrass (Lolium perenne L.). Euphytica, 182(3), 295–315.

[40]	Siegel, M. R., Johnson, M. C., Varney, D. R., Nesmith, W. C., Buckner, R. C., Bush, L. P., Burrus, II, P. B., Jones, T. A., & Boling, J. A. (1984). A fungal endophyte in tall fescue: Incidence and dissemination. Phytopathology, 74(8), 932–937.

[41]	Simpson, W. R., Schmid, J., Singh, J., Faville, M. J., & Johnson, R. D. (2012). A morphological change in the fungal symbiont Neotyphodium lolii induces dwarfing in its host plant Lolium perenne. Fungal Biology, 116, 234–240.

[42]	Stewart, A., Kerr, G., Rowarth, J., & Stevens, D. (2022). Pasture and forage plants for New Zealand. New Zealand Grassland Association.

[43]	Stewart, A. V. (2006). Genetic origins of perennial ryegrass (Lolium perenne) for New Zealand pastures. Breeding for success: Diversity in action. Proceedings of the 13th Australasian Plant Breeding Conference, 11–22.

[44]

Stewart, A. V., Goldson, S. L., Marris, J. W., Rubenstein, J. M., & Rolston, M. P. (2022). Analytical purity of old New Zealand forage seed samples and detection of fungal and insect contaminants including ryegrass endophyte and Argentine stem weevil. New Zealand Journal of Agricultural Research, 66(3), 270–283.

[45]	Taylor, A. L., Fraser, T. J., & King, W. M. (2012). Performance of new dairy pastures. Proceedings of the New Zealand Grassland Association, 74, 159–164.

[46]	Thom, E. R., Clark, D. A., & Waugh, C. D. (1999). Growth, persistence, and alkaloid levels of endophyte-infected and endophyte-free ryegrass pastures grazed by dairy cows in Northern New Zealand. New Zealand Journal of Agricultural Research, 42(3), 241–253.

[47]	Tozer, K. N., Hume, D. E., Cameron, C., Greenfield, R., Dale, T., Mace, W. J., Craven, A., & Faville, M. J. (2024). Effect of heading date and Epichloë endophyte strain on diploid perennial ryegrass (Lolium perenne) persistence. 2. Endophyte effects. Crop & Pasture Science, 75. In press.

[48]

Tozer, K. N., Rennie, G. M., King, W. M., Mapp, N. R., Aalders, L. T., Bell, N. L., Wilson, D. J., Cameron, C. A., & Greenfield, R. M. (2015). Pasture renewal on Bay of Plenty and Waikato dairy farms: Impacts on pasture performance post-establishment. New Zealand Journal of Agricultural Research, 58(3), 241–258.