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Confinement influenced the diurnal behavior of Katahdin rams and Kiko wethers in southern-pine silvopastures

  • Sanjok PoudelEmail author
  • Uma Karki
  • Yubaraj Karki
  • Asha Tillman
Article

Abstract

Previous studies with Kiko wethers rotationally stocked in southern-pine silvopastures showed a significant debarking of 10-11-year-old pine trees during winter and spring. There is a need to identify suitable animals and management strategies to protect trees in silvopastures. The objective of the study was to determine the effect of confinement on diurnal behavior and distribution pattern of Katahdin rams and Kiko wethers cograzing in southern-pine silvopastures during the cool-season grazing period. Diurnal behavior and distribution pattern of Kiko wethers (n = 6; 61.5 ± 1.58 kg live weight) and Katahdin rams (n = 6; 72.7 ± 4.80 kg live weight) were monitored in two sets of studies: (1) animals were rotationally stocked in three silvopasture plots with confinement (plot-gate closed), and (2) the same study was repeated with non-confinement (plot-gate open), allowing access to wooded area and open space located outside the silvopasture plots. Rams did not debark pine trees irrespective of confinement. They spent less time (17%) grazing (p < 0.05) and stayed out of the silvopasture plots for a significant period (42%) with non-confinement. Wethers showed some debarking (2%) of pine trees with confinement, but none without confinement. With non-confinement, wethers’ grazing time decreased (53%) (p < 0.0001), browsing time increased (48×) (p < 0.0001), and distribution outside the silvopasture plots remained significant (73%). Katahdin rams were found safe to use in southern-pine silvopastures consisting of 12-year-old longleaf and loblolly pine trees; however, non-confinement would be necessary while using Kiko wethers to safeguard young southern-pine trees in small silvopasture plots containing similar understory vegetation during the cool-season grazing period.

Keywords

Browsing Debarking Grazing Longleaf pine Loblolly pine 

Notes

Acknowledgements

This work was supported by the United States Department of Agriculture (USDA) National Institute of Food and Agriculture, Agriculture and Food Research Initiative (AFRI), Competitive Grant Number 2016-68006-24764. This work also received partial support from the McIntire Stennis Forestry Research Program. We would like to extend our gratitude to all staff at Tuskegee University, George Washington Carver Agricultural Experiment Station and Cooperative Extension for their assistance in performing the fieldwork during the study.

References

  1. Animut G, Goetsch AL, Aiken GE, Puchala R, Detweiler G, Krehbiel CR, Merkel RC, Sahlu T, Dawson LJ, Johnson ZB, Gipson TA (2005) Performance and forage selectivity by sheep and goats co-grazing grass/forb pastures at three stocking rates. Small Rumin Res 59:203–215CrossRefGoogle Scholar
  2. Bryant FC, Kothmann MM, Merrill LB (1979) Diets of sheep, Angora goats, Spanish goats and white-tailed deer under excellent range conditions. J Range Manag 32:412–417CrossRefGoogle Scholar
  3. Butler L, Cropper J, Johnson R, Norman A, Peacock G, Shaver P, Spaeth K (2003) National range and pasture handbook. United States Department of Agriculture, National Resources Conservation Service. Grazing Lands Technology Institute, Fort Worth, TXGoogle Scholar
  4. Coblentz WK, Coffey KP, Turner JE, Scarbrough DA, Weyers JS, Harrison KF, Johnson ZB, Daniels LB, Rosenkrans CF, Kellogg DW, Hubbell DS (2000) Effect of maturity on degradation kinetics of sod-seeded cereal grain forage grown in Northern Arkansas. J Dairy Sci 83(11):2499–2511CrossRefGoogle Scholar
  5. Fike JH, Buergler AL, Burger JA, Kallenbach RL (2004). Consideration for establishing and managing silvopasture. Online. Forage and Grazinglands.  https://doi.org/10.1094/FG-2004-1209-01-RV
  6. Garret HE, Kerley MS, Ladyman KP, Walter WD, Godsey LD, Van Sambeek JW, Brauer DK (2004) Hardwood silvopasture management in North America. Agrofor Syst 61:21–33Google Scholar
  7. Gipson TA, Villaquiran M, Joseph J, Goetsch AL (2003) Spatial-temporal relationships of grazing goats and sheep and their guardian dog monitored by global positioning system collars. J Anim Sci 81:326Google Scholar
  8. Gong Y, Hodgson J, Lambert MG, Gordon IL (1996) Short-term ingestive behavior of sheep and goats grazing grasses and legumes: 1. comparison of bite weight, bite rate, and bite dimensions for forages at two stages of maturity. New Zeal J Agric Res 39:63–73CrossRefGoogle Scholar
  9. Hadjigeorgiou IE, Gordon IJ, Milne JA (2003) Comparative preference by sheep and goats for Graminaeae forages varying in chemical composition. Small Rumin Res 49:147–156CrossRefGoogle Scholar
  10. Hamilton J (2008) Silvopasture: establishment and management principles for pine forest in Southeastern United States. USDA National Agroforestry Centre and Natural Resource Conservation Service, Lincoln, NEGoogle Scholar
  11. Herselman MJ, Hart SP, Sahlu T, Coleman SW, Goetsch AL (1999) Heat energy for growing goats and sheep grazing different pastures in the summer. J Anim Sci 77(5):1258–1265CrossRefGoogle Scholar
  12. Hue NV, Evans CE (1986) Procedures used by the Auburn University Soil Testing Laboratory. Alabama Agric. Exp. Sta. Dep. Ser. no. 106, Auburn University, AL  Google Scholar
  13. Karki U, Goodman MS (2010) Cattle distribution and behavior in southern-pine silvopasture versus open-pasture. Agrofor Syst 78(2):159–168CrossRefGoogle Scholar
  14. Karki U, Karki Y, Khatri R, Tillman A, Gurung N (2018a) Diurnal behavior and distribution patterns of Kiko wethers in southern-pine silvopastures during the cool-season grazing period. Agrofor Syst.  https://doi.org/10.1007/s10457-018-0229-3 Google Scholar
  15. Karki U, Karki Y, Khatri R, Tillman A, Poudel S, Gurung N, Kumi A (2018b) Raising goats in the southern-pine silvopasture system: challenges and opportunities. Agrofor Syst.  https://doi.org/10.1007/s10457-018-0271-1 Google Scholar
  16. Kronberg SL, Malechek JC (1997) Relationships between nutrition and foraging behavior of free-ranging sheep and goats. J Anim Sci 75:1756–1763CrossRefGoogle Scholar
  17. Kruskal WH, Wallis WA (1952) Use of ranks in one-criterion variance analysis. J Am Stat Assoc 47(260):583–621CrossRefGoogle Scholar
  18. Landsberg J, Stol J (1996) Spatial distribution of sheep, feral goats and kangaroos in woody rangeland paddocks. Rangel J 18:270–291CrossRefGoogle Scholar
  19. Lehmkuhler J, Felton EED, Schmidt DA, Bader KJ, Moore A, Huck MB, Garrett HE, Kerley MS (2003) Cattle performance and tree damage using various tree protection methods during tree establishment. Agrofor Syst 59:35–42CrossRefGoogle Scholar
  20. Miller J (2004) Internal and external parasites of goats. http://www2.luresext.edu/goats/training/parasites.pdf. Accessed 6 June 2018
  21. Ngwa AT, Pone DK, Mafeni JM (2000) Feed selection and dietary preference of forages by small ruminants grazing natural pasture in the Sahelian zone of Cameroon. Anim Feed Sci Technol 88:253–266CrossRefGoogle Scholar
  22. NRC (2007) Nutrient requirements of small ruminants. Sheep, goats, cervids and new world camelids. National Academy Press, Washington, DCGoogle Scholar
  23. Papachristou TG (1997) Foraging behaviour of goats and sheep on Mediterranean kermes oak shrublands. Small Rumin Res 24:85–93CrossRefGoogle Scholar
  24. Poudel S, Karki U, McElhenney W, Karki Y, Tillman A (2018) Behavior and distribution patterns of Katahdin rams in southern-pine silvopastures with cool-season forages. Agrofor Syst.  https://doi.org/10.1007/s10457-018-0294-7 Google Scholar
  25. Provenza FD, Lynch JJ, Burrit EA, Scott CB (1994a) How goats learn to distinguish between novel foods that differ in postingestive consequences. J Chem Ecol 20:609–624CrossRefGoogle Scholar
  26. Provenza FD, Lynch JJ, Nolan JV (1994b) Food aversion conditioned in anesthetized sheep. Physiol Behav 55:429–432CrossRefGoogle Scholar
  27. Sanon HO, Kaboré-Zoungrana C, Ledin I (2007) Behaviour of goats, sheep and cattle and their selection of browse species on natural pasture in a Sahelian area. Small Rumin Res 67:64–74CrossRefGoogle Scholar
  28. Sauve AK, Huntington GB, Burns JC (2009) Effects of total nonstructural carbohydrates and nitrogen balance on voluntary intake of goats and digestibility of gamagrass hay harvested at sunrise and sunset. Anim Feed Sci Technol 148:93–106CrossRefGoogle Scholar
  29. Solanki GS (2000) Grazing behaviour and foraging strategy of goats in semi-arid region in India. Trop Ecol 41:155–159Google Scholar
  30. TimberMart-South (2018) The TMS market news bulletin 1Q2018. http://www.timbermart-south.com/prices.html. Acessed 29 September 2018
  31. Van Soest PJ, Robertson JB, Lewis BA (1991) Methods for dietary fiber, neutral detergent fiber, and non-starch polysaccharides in relation to animal production. J Dairy Sci 74:3583–3597CrossRefGoogle Scholar
  32. Wilson AD, Leigh JH, Hindley NL, Mulham WE (1975) Comparison of the diets of goats and sheep on a Casuarina cristata—Heterodendrum oleifolium woodland community in western New South Wales. Aust J Exp Agric 15:45–53CrossRefGoogle Scholar
  33. Zuo H, Miller-Goodman MS (2003) An index for description of landscape use by cattle. J Range Manag 56:146–151CrossRefGoogle Scholar

Copyright information

© Springer Nature B.V. 2019

Authors and Affiliations

  1. 1.School of Plant and Environmental SciencesVirginia Polytechnic Institute and State UniversityBlacksburgUSA
  2. 2.Cooperative Extension/Department of Agricultural and Environmental Sciences, College of Agriculture, Environment, and Nutrition SciencesTuskegee UniversityTuskegeeUSA

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