Register      Login
The Rangeland Journal The Rangeland Journal Society
Journal of the Australian Rangeland Society
Shopping Cart: ( empty )
You are here: Home > Journals > RJ > RJ10063
RESEARCH ARTICLE
Contents Vol 33(3)

The effect of bovine saliva on growth attributes and forage quality of two contrasting cool season perennial grasses grown in three soils of different fertility

M. Kerim Gullap A , H. Ibrahim Erkovan B and Ali Koc B C
+ Author Affiliations
- Author Affiliations

A Narman Vocational High School, University of Ataturk, Narman, Erzurum, Turkey.

B Department of Field Crops, Faculty of Agriculture, University of Ataturk, Erzurum, Turkey.

C Corresponding author. Email: akoc@atauni.edu.tr

The Rangeland Journal 33(3) 307-313 https://doi.org/10.1071/RJ10063
Submitted: 18 October 2010  Accepted: 11 August 2011   Published: 9 September 2011

Abstract

The aim of this study was to determine the response of Dactylis glomerata L. (Orchardgrass) and Festuca ovina L. (Sheep fescue), to bovine saliva application in a loamy soil (most fertile), a sandy loam and a sandy soil (least fertile). The effects of cutting and cutting + saliva on relative height growth rate (RHGR), above- and belowground biomass and forage quality attributes [crude protein, NDF (neutral detergent fibre) and ADF (acid detergent fibre)] were investigated. The results showed that the cutting and cutting + saliva treatments resulted in greater RHGR than the control, but only with D. glomerata in the sandy soil did the application of saliva increase the RHGR. However, saliva applied after cutting increased the aboveground biomass averaged over all species and all three soils. Saliva applied to D. glomerata increased the belowground biomass in the sandy loam and sandy soils but decreased it in F. ovina in the sandy soil. The application of saliva had no effect on the crude protein or the NDF content of either species in any of the soils. On the other hand, the application of saliva after clipping increased the ADF of F. ovina but decreased that of D. glomerata averaged over all three soils. Averaged over both species, the ADF was increased by the addition of saliva in the sandy soil, had no significant effect in the sandy loam (P > 0.05) and was slightly increased in the loam.

Additional keywords: above- and belowground biomass, clipping, plant, soil texture.


References

Acikgoz, E. (2001). ‘Forage.’ 3rd edn. Publication No. 182. (Uludağ University Güçlendirme Vakfı: Bursa.)

Altin, M., Gokkus, A., and Koc, A. (2005). ‘Pasture and Rangeland Improving.’ (Cayir Mera Yem Bitkileri ve Havza Gelistirme Daire Baskanligi: Ankara.)

Aydin, I., and Uzun, F. (2005). Nitrogen and phosphorus fertilization of rangeland affect yield, forage quality and the botanical composition. European Journal of Agronomy 23, 8–14.
Nitrogen and phosphorus fertilization of rangeland affect yield, forage quality and the botanical composition.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2MXlsl2rtL8%3D&md5=37b29941109246fc109e3faa2e9bb5b0CAS |

Barnard, C., and Frankel, O. H. (1964). Grass, grazing animals and man in historic perspective. In: ‘Grasses and Grasslands’. (Ed. C. Barnard.) pp. 1–12. (MacMillan and Co. Ltd: Melbourne.)

Barnes, R. F., Nelson, C. J., Collins, M., and Moore, K. (2003). ‘Forages.’ 6th edn. (Blackwell Publishing: Oxford.)

Bonner, J. (1937). Vitamin B1: a growth factor for higher plants. Science 85, 183–184.
Vitamin B1: a growth factor for higher plants.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaA2sXit1Srsw%3D%3D&md5=d0e2098be99101ea4b2d186a0c76af80CAS |

Boyd, C. S., and Svejcar, T. J. (2004). Regrowth and production of herbaceous riparian vegetation following defoliation. Journal of Range Management 57, 448–454.
Regrowth and production of herbaceous riparian vegetation following defoliation.Crossref | GoogleScholarGoogle Scholar |

Buxton, D. R., and Mertens, D. R. (1995). Quality-related characteristics of forages. In: ‘Forages II: The Science of Grassland Agriculture’. (Eds R. F. Barnes, D. A. Miller and C. J. Nelson.) pp. 83–96. (IOWA State University Press: Ames, IA.)

Cilliers, J. W., Van der Merwe, H. J. M., Vermaak, L., Jaarsma, J. J., and Oosthuysen, D. (1995). Effects of veldt fertilisation on herbage chemical composition and beef cattle production. Animal Science 61, 519–526.
Effects of veldt fertilisation on herbage chemical composition and beef cattle production.Crossref | GoogleScholarGoogle Scholar |

Cilliers, J. W., Van Biljon, P. L., Tolmay, E., and Coertze, C. (1997). Effects of different levels of fertilizer application to veldt on growth of steers and chemical composition of the herbage. Grass and Forage Science 52, 242–248.
Effects of different levels of fertilizer application to veldt on growth of steers and chemical composition of the herbage.Crossref | GoogleScholarGoogle Scholar |

Comakli, B., Menteşe, Ö., and Koç, A. (2005). Nitrogen fertilizing and pre-anthesis cutting stage improve dry matter production, protein content and botanical composition in meadows. Acta Agriculture Scandinavia, Section B. Soil and Plant Science 55, 125–130.

Cronquist, A., Holmgren, A. H., Holmgren, N. H., Reveal, J. L., and Holmgren, P. K. (1977). ‘Intermountain Flora: Vascular plants in the Intermountain West, USA. Vol. 6: The Monocotyledons.’ (Columbia University Press: New York.)

Dawson, L. A., Grayston, S. J., and Paterson, E. (2000). Effects of grazing on the roots and rhizosphere of grasses. In: ‘Grassland Ecophysiology and Grazing Ecology’. (Eds G. Lemaire, J. Hodgson, A. de Mores, P. C. de F. Carvalho, and C. Nabinger.) pp. 61–84. (CABI Publishing: Cambridge.)

Detling, J. K., Dyer, M. I., Procter-Gregg, C., and Winn, T. D. (1980). Plant-herbivore interactions: examination of potential effects of bovine saliva on regrowth of Bouteloua gracilis (H.B.K.) Lag. Oecologia 45, 26–31.
Plant-herbivore interactions: examination of potential effects of bovine saliva on regrowth of Bouteloua gracilis (H.B.K.) Lag.Crossref | GoogleScholarGoogle Scholar |

Dyer, M. I., Turner, C. L., and Seastedt, T. R. (1993). Herbivory and its consequences. Ecological Applications 3, 10–16.
Herbivory and its consequences.Crossref | GoogleScholarGoogle Scholar |

Erkovan, H. İ., Koc, A., and Serin, Y. (2003). Some vegetation properties of Bayburt (Turkey) province rangeland. In: ‘Optimal Forage Systems for Animal Production and the Environment: Grassland Sciences in Europe’. Bulgaria, May 2003. (Eds A. Kirilov, N. Todorov and I. Katerov.) pp. 617–620. (UN/SCORP: Pleven.)

Erkovan, H. I., Gullap, M. K., Dasci, M., and Koc, A. (2009). Changes in leaf area index, forage quality and above-ground biomass in grazed and ungrazed rangelands of Eastern Anatolia Region. Tarim Bilimleri Dergisi 15, 217–223.

Frank, D. A., Kuns, M. M., and Guido, D. R. (2002). Consumer control of grassland plant production. Ecology 83, 602–606.
Consumer control of grassland plant production.Crossref | GoogleScholarGoogle Scholar |

Gokkus, A., and Koc, A. (1996). Canopy and root development of crested wheatgrass in relation to the quantity and time of nitrogen application. Turkish Journal of Agriculture and Forestry 20, 289–293.

Gokkus, A., and Koc, A. (2001). ‘Pasture and Rangeland Management.’ Publication No. 228. (Ataturk University, Faculty of Agriculture: Erzurum.)

Harradine, A. R., and Whalley, R. D. B. (1981). A comparison of root growth, root morphology and root response to defoliation of Aristida ramosa R.Br., and Danthonia linkii Kunth. Australian Journal of Agricultural Research 32, 565–574.
A comparison of root growth, root morphology and root response to defoliation of Aristida ramosa R.Br., and Danthonia linkii Kunth.Crossref | GoogleScholarGoogle Scholar |

Hartley, W. (1973). Studies on the origin, evolution and distribution of the Gramineae: V. The subfamily Festucoideae. Australian Journal of Botany 21, 201–234.
Studies on the origin, evolution and distribution of the Gramineae: V. The subfamily Festucoideae.Crossref | GoogleScholarGoogle Scholar |

Hodgkinson, K. C., Ludlow, M. M., Mott, J. J., and Baruch, Z. (1989). Comparative responses of the savannah grasses Cenchrus ciliaris and Themeda triandra to defoliation. Oecologia 79, 45–52.
Comparative responses of the savannah grasses Cenchrus ciliaris and Themeda triandra to defoliation.Crossref | GoogleScholarGoogle Scholar |

Holechek, J. L., Pieper, R. D., and Herbel, C. H. (2004). ‘Range Management Principles and Practices.’ 5th edn. (Pearson Education, Inc.: Upper Saddle River.)

Ishikawa, S. I., and Kachi, N. (2000). Differential salt tolerance of two Artemisia species growing in contrasting coastal habitats. Ecological Research 15, 241–247.
Differential salt tolerance of two Artemisia species growing in contrasting coastal habitats.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3cXns1CqsLo%3D&md5=9bae353c5df68d2921270491c429ebe6CAS |

Johnston, A., and Bailey, C. B. (1972). Influence of bovine saliva on grass regrowth in the greenhouse. Canadian Journal of Animal Science 52, 573–574.
Influence of bovine saliva on grass regrowth in the greenhouse.Crossref | GoogleScholarGoogle Scholar |

Johnston, C. R., Reiling, B. A., Mislevy, P., and Hall, M. B. (2001). Effects of nitrogen fertilization and harvest date on yield, digestibility, fiber, and protein fractions of tropical grasses. Journal of Animal Science 79, 2439–2448.

Jones, D. I. H. (1981). Chemical composition and nutritive value. In: ‘Sward Measurement Handbook’. (Eds J. Handson, R. D. Baker, A. Davies, A. S. Laidlows and J. D. Leawer.) pp. 243–265. (The British Grassland Society: Devon.)

Koc, A. (2001). Autumn and spring drought periods affect vegetation on high elevation rangelands of Turkey. Journal of Range Management 54, 622–627.
Autumn and spring drought periods affect vegetation on high elevation rangelands of Turkey.Crossref | GoogleScholarGoogle Scholar |

Koc, A., and Gokkus, A. (1994). Determination of basal area, botanical composition and suitable stubble height at the rangelands of Guzelyurt district, Erzurum. Turk Tarιm ve Ormancιlιk Dergisi 18, 495–500.

Koc, A., Gokkus, A., Serin, Y., Tan, M., and Comakli, B. (1998). Hay yield and quality of D. glomerata, alfalfa and red clover mixtures in relation to nitrogen application. In ‘Second Balkan Symposium on Field Crops’. (Ed. S. Stamenkovic.) pp. 465–467. (Institute of Field and Vegetable Crops: Novi Sad.)

Loeser, M. R., Crews, T. E., and Sisk, T. D. (2004). Defoliation increased above-ground productivity in a semi-arid grassland. Journal of Range Management 57, 442–447.
Defoliation increased above-ground productivity in a semi-arid grassland.Crossref | GoogleScholarGoogle Scholar |

Malhi, S. S., Loeppky, H., Coulman, B., Gill, K. S., Curry, P., and Plews, T. (2004). Fertilizer nitrogen, phosphorus, potassium, and sulphur effects on forage yield and quality of timothy hay in the Parkland region of Saskatchewan, Canada. Journal of Plant Nutrition 27, 1341–1360.
Fertilizer nitrogen, phosphorus, potassium, and sulphur effects on forage yield and quality of timothy hay in the Parkland region of Saskatchewan, Canada.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2cXmvVCrsrc%3D&md5=cfa70231bfc22d4c5c640f61943d3604CAS |

McNaughton, S. J. (1985). Interactive regulation of grass yield and chemical properties by defoliation, a salivary chemical and inorganic nutrition. Oecologia 65, 478–486.
Interactive regulation of grass yield and chemical properties by defoliation, a salivary chemical and inorganic nutrition.Crossref | GoogleScholarGoogle Scholar |

Oztas, T., Koc, A., and Comakli, B. (2003). Changes in vegetation and soil properties along a slope on overgrazed and eroded rangelands. Journal of Arid Environments 55, 93–100.
Changes in vegetation and soil properties along a slope on overgrazed and eroded rangelands.Crossref | GoogleScholarGoogle Scholar |

Pagnotta, M. A., Snaydon, R. W., and Cocks, P. S. (1997). The effects of environmental factors on components and attributes of a Mediterranean grassland. Journal of Applied Ecology 34, 29–42.
The effects of environmental factors on components and attributes of a Mediterranean grassland.Crossref | GoogleScholarGoogle Scholar |

Reardon, P. O., and Merrill, L. B. (1978). Response of sideoats grama grown in different soils to addition of thiamine and bovine saliva. In: ‘First International Rangeland Congress, Society for Range Management’. (Ed. D. N. Hyder.) pp. 396–397. (Peerless Printing: Denver.)

Reardon, P. O., Leinweber, C. L., and Merrill, L. B. (1972). The effect of bovine saliva on grasses. Journal of Animal Science 34, 897–898.

Reardon, P. O., Leinweber, C. L., and Merrill, L. B. (1974). Response of Sideoats grama to animal saliva and thiamine and bovine saliva. Journal of Range Management 27, 400–401.
Response of Sideoats grama to animal saliva and thiamine and bovine saliva.Crossref | GoogleScholarGoogle Scholar |

Robbins, W. J., and Bartley, M. A. (1937). Vitamin B1 and the growth of excised tomato roots. Science 85, 246–247.
Vitamin B1 and the growth of excised tomato roots.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaA2sXisFagsQ%3D%3D&md5=7a1cfae16aa6b061101f514aa5a58483CAS |

Rubio, M. O., Wood, M. K., Gomez, A., and Reyes, G. (1996). Native forage quality, quantity, and profitability as affected by fertilization in Northern Mexico. Journal of Range Management 49, 315–319.
Native forage quality, quantity, and profitability as affected by fertilization in Northern Mexico.Crossref | GoogleScholarGoogle Scholar |

SAS Institute (1998). ‘Statistical Analysis System Institute: StatView Reference Manual.’ (SAS Institute: Cary, NC.)

Schacht, W. H., and Volesky, J. (2010). Grazing system research in the Nebraska Sandhills. In: ‘Nebraska Grazing Conference’. August, 2010. (Ed. P. Murray.) pp. 79–83. (Centre for Grassland Studies University of Nebraska, Publisher: Kearney.)

Schaffers, A. P. (2002). Soil, biomass, and management of semi-natural vegetation. Plant Ecology 158, 229–246.
Soil, biomass, and management of semi-natural vegetation.Crossref | GoogleScholarGoogle Scholar |

Serin, Y., and Tan, M. (2004). ‘Forage Grasses.’ Publication No. 334. (Ataturk University Faculty of Agriculture: Erzurum.)

Teng, X., Ba, L., Wang, D., Wang, L., and Liu, J. (2010). Growth responses of Leymus chinensis (Trin.) Tzvelez to sheep saliva after defoliation. The Rangeland Journal 32, 419–426.
Growth responses of Leymus chinensis (Trin.) Tzvelez to sheep saliva after defoliation.Crossref | GoogleScholarGoogle Scholar |

Van Santen, E., and Sleper, D. (1996). Orchardgrass. In ‘Cool Season Forage Grasses’. (Eds L. E. Moser, D. R. Buxton and M. D. Casler.) pp. 503–534. (American Society of Agronomy: Madison.)

Van Soest, P. J., Robertson, J. B., and Lewis, B. A. (1991). Methods for dietary fiber, neutral detergent fiber, and non-starch polysaccharides in relation to animal nutrition. Journal of Dairy Science 74, 3583–3597.
Methods for dietary fiber, neutral detergent fiber, and non-starch polysaccharides in relation to animal nutrition.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaK38%2FnvVCltA%3D%3D&md5=deda7d73c79b1adfc2016124c006dbdbCAS |

Wang, D. L., and Ba, L. (2008). Ecology of meadow steppe in northeast China. The Rangeland Journal 30, 247–254.
Ecology of meadow steppe in northeast China.Crossref | GoogleScholarGoogle Scholar |

Zhang, Z., Wang, S. P., Jiang, G. M., Patton, B., and Nyren, P. (2007). Response of Artemisia frigida Wild. (Compositae) and Leymus chinensis (Trin.) Tzvel. (Poaceae) to sheep saliva. Journal of Arid Environments 70, 111–119.
Response of Artemisia frigida Wild. (Compositae) and Leymus chinensis (Trin.) Tzvel. (Poaceae) to sheep saliva.Crossref | GoogleScholarGoogle Scholar |