Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

GPS observation of shelter utilisation by Merino ewes

D. B. Taylor A B D , D. A. Schneider B , W. Y. Brown A , I. R. Price C , M. G. Trotter B , D. W. Lamb B and G. N. Hinch A B
+ Author Affiliations
- Author Affiliations

A School of Environmental and Rural Sciences, Animal Science, University of New England, Armidale, NSW 2351, Australia.

B Precision Agriculture Research Group, University of New England, Armidale, NSW 2351, Australia.

C School of Cognitive, Behavioural and Social Sciences, Psychology, University of New England, Armidale, NSW 2351, Australia.

D Corresponding author. Email: dtaylor2@une.edu.au

Animal Production Science 51(8) 724-737 https://doi.org/10.1071/AN11025
Submitted: 24 February 2011  Accepted: 20 June 2011   Published: 5 August 2011

Abstract

The present study examined how shelter availability, altitude and temperature influence paddock utilisation by pregnant and lambing Merino ewes. Global positioning systems (GPS) attached to collars allowed continuous tracking of ewes’ positions within two paddocks, and environmental conditions were also monitored throughout this time using temperature loggers. Animal tracking devices (UNEtracker GPS collars) were used in the spring (September–November) of 2008 (51 days) and 2009 (43 days), 14 days post-shearing, to monitor movement of pregnant grazing fine-wool Merino ewes (5 per paddock per year). The data were used to examine sheep use of lone trees, interior shelter, perimeter shelter and remainder of the paddock during three distinct diurnal activity periods, namely night camping, morning grazing and afternoon grazing. Regular use of shelter was consistently recorded in the two experimental years and in both paddocks. The ewes consistently used sheltered areas and both the leeward and windward sides of shelter, particularly during high sheep chill days. The sheep used the sheltered areas significantly more often than they used the remainder of the paddock, which was devoid of shelter except for lone trees. Night camping did not occur at the highest altitude, but predominantly where shelter was also located. The present study has demonstrated the consistent use of shelter by sheep. The shelter-seeking behaviour of the ewes a month post-shearing suggests that these animals are more sensitive to weather conditions than has been previously reported.

Additional keywords: chill index, climate, GPS tracking, sheep, sheltering behaviour.


References

Alexander G (1964) Lamb survival: physiological considerations. Proceedings of the Australia Society of Animal Production 5, 113–122.

Alexander G (1974) Heat loss from sheep. In ‘Heat loss from animals and man’. (Eds JL Monteith, LE Mount) pp. 173–203. (Butterworths: London)

Alexander G (1978) Quantitative development of adipose tissure in foetal sheep. Australian Journal of Biological Sciences 31, 489–503.

Alexander G (1986) Physiological and behavioural factors affecting lamb survival under pastoral conditions. In ‘Factors affecting the survival of newborn lambs’. (Eds G Alexander, JD Barker, J Slee) pp. 99–113. (Commission of European Communities: Luxembourg)

Alexander G, Lynch JJ, Mottershead BE (1979) Use of shelter and selection of lambing sites by shorn and unshorn ewes in paddocks with closely or widely spaced shelters. Applied Animal Ethology 5, 51–69.
Use of shelter and selection of lambing sites by shorn and unshorn ewes in paddocks with closely or widely spaced shelters.Crossref | GoogleScholarGoogle Scholar |

Alexander G, Lynch JJ, Mottershead BE, Donnelly JB (1980) Reduction in lamb mortality by means of grass wind-breaks: results of a five-year study. Proceedings of the Australia Society of Animal Production 13, 329–332.

Ames DR, Insley LW (1975) Wind-chill effect for cattle and sheep. Journal of Animal Science 40, 161–165.

Biggs JR, Bennett KD, Fresquiez PR (2001) Relationship between home range characteristics and the probability of obtaining successful global positioning system (GPS) collar positions of elk in New Mexico. Western North American Naturalist 61, 213–222.

Bird PR, Lynch JJ, Obst JM (1984) Effect of shelter on plant and animal production. Proceedings of the Australia Society of Animal Production 15, 270–273.

Blackshaw JK, Blackshaw AW (1994) Heat stress in cattle and the effect on shade on production and behaviour: a review. Australian Journal of Experimental Agriculture 34, 285–295.
Heat stress in cattle and the effect on shade on production and behaviour: a review.Crossref | GoogleScholarGoogle Scholar |

Blake S, Hamilton ID, Karesh WB (2001) GPS telemetry of forest elephants in central Africa: results of a preliminary study. African Journal of Ecology 39, 178–186.
GPS telemetry of forest elephants in central Africa: results of a preliminary study.Crossref | GoogleScholarGoogle Scholar |

Blaxter KL (1977) Environmental factors and their influence on the nutrition of farm livestock. In ‘Nutrition and the climatic environment’. (Eds W Haresign, H Swan, D Lewis) pp. 1–16. (Buttersworth: London)

Boe KE, Faerevik G (2003) Grouping and social preferences in calves, heifers and cows. Applied Animal Behaviour Science 80, 175–190.
Grouping and social preferences in calves, heifers and cows.Crossref | GoogleScholarGoogle Scholar |

Bowman JL, Kochanny CO, Demarais S, Leopold BD (2000) Evaluation of GPS collar for white-tailed deer. Wildlife Society Bulletin 28, 141–145.

Broster JC, Dehaan DL, Swain DL, Friend MA (2010) Ewe and lamb contact at lambing is influenced by both shelter type and birth number. Animal 4, 796–803.
Ewe and lamb contact at lambing is influenced by both shelter type and birth number.Crossref | GoogleScholarGoogle Scholar |

Brown GD (1971) Thermal status of sheep at pasture in western New South Wales. Australian Journal of Agricultural Research 22, 797–808.
Thermal status of sheep at pasture in western New South Wales.Crossref | GoogleScholarGoogle Scholar |

Buckman PG (1982) A survey of post-shearing losses following summer rain in south-western Australia. In ‘Losses of sheep after shearing due to adverse weather’. Australian Society of Animal Production, Western Australian Branch, p. 11.

Bureau of Meteorology (2008) Climate data online – Temperature/Stevenson screen mounting height. 2008. Available at http://www.bom.gov.au/climate/cdo/about/definitionstemp.shtml [Verified 10 March 2008]

Cleugh H (1998) Effects of windbreaks on airflow, microclimates and crop yields. Agroforestry Systems 41, 55–84.
Effects of windbreaks on airflow, microclimates and crop yields.Crossref | GoogleScholarGoogle Scholar |

Conradt L, Clutton-brock TH, Guinness FE (2000) Sex differences in weather sensitivity can cause habitat segregation: red deer as an example. Animal Behaviour 59, 1049–1060.
Sex differences in weather sensitivity can cause habitat segregation: red deer as an example.Crossref | GoogleScholarGoogle Scholar |

D’Eon RG, Serrouya R, Smith G, Kochanny OC (2002) GPS radiotelemetry error and bias in mountainous terrain. Wildlife Society Bulletin 30, 430–439.

Da Silva RG (2006) Weather and climate and animal production. In ‘Guide to agricultural meteorological practices (GAMP)’, draft 3rd edn. (WMO-No. 134). (Ed. K Stigter) pp. 1–36. (World Meteorological Organization: Geneva) Available at http://www.wmo.ch/pages/prog/wcp/agm/gamp/gamp_en.html [Verified 12 June 2008]

Fowler DG, Wilkins JF (1982) The accuracy of ultrasonic imaging with real time scanners in determining litter number in pregnant ewes. Animal Production in Australia 14, 636

Geytenbeek PE (1963) A survey of post-shearing losses due to adverse weather conditions. Experimental Record 21, 21–30.

Geytenbeek PE (1982) ‘Losses of sheep after shearing due to adverse weather.’ Paper presented at the Australian Society of Animal Production, Western Australian Branch, p. 8.

Girard I, Ouellet JP, Courtois R, Dussault C, Breton L (2002) Effects of sampling effort based on GPS telemetry on home-range size estimations. The Journal of Wildlife Management 66, 1290–1300.
Effects of sampling effort based on GPS telemetry on home-range size estimations.Crossref | GoogleScholarGoogle Scholar |

Gurarie E, Andrews RD, Laidre KL (2009) A novel method for identifying behavioural changes in animal movement data. Ecology Letters 12, 395–408.
A novel method for identifying behavioural changes in animal movement data.Crossref | GoogleScholarGoogle Scholar |

Hinch GN (2008) Lamb survival in Australian flocks: a review. Available at http://sheepcrc.org.au/inex.php?id=1241 [Verified 21 February 2008]

Holm Glass M, Jacob RH (1991) Losses of sheep following adverse weather after shearing. Australian Veterinary Journal 69, 142–143.

Hulbert IAR, Wyllie JTB, Waterhouse A, French J, McNulty D (1998) A note on the circadian rhythm and feeding behaviour of sheep fitted with a lightweight GPS collar. Applied Animal Behaviour Science 60, 359–364.
A note on the circadian rhythm and feeding behaviour of sheep fitted with a lightweight GPS collar.Crossref | GoogleScholarGoogle Scholar |

Hutchinson JCD (1968) Deaths of sheep after shearing. Australian Journal of Experimental Agriculture and Animal Husbandry 8, 393–400.
Deaths of sheep after shearing.Crossref | GoogleScholarGoogle Scholar |

Hutchinson JCD, Bennett JW (1962) The effect of cold on sheep. Wool Technology and Sheep Breeding 8, 11–16.

Hutchinson KJ, McRae BH (1969) Some factors associated with the behaviour and survival of newly shorn sheep. Australian Journal of Agricultural Research 20, 513–521.
Some factors associated with the behaviour and survival of newly shorn sheep.Crossref | GoogleScholarGoogle Scholar |

Johnson KG (1991) Body temperatures and respiratory rates of free-ranging Merino sheep in and out of shade during summer. Australian Journal of Agricultural Research 42, 1347–1357.
Body temperatures and respiratory rates of free-ranging Merino sheep in and out of shade during summer.Crossref | GoogleScholarGoogle Scholar |

Johnson CJ, Heard DC, Parker KL (2002) Expectations and realities of GPS animal location collars: results of three years in the paddock. Wildlife Biology 8, 153–159.

Kadzere CT, France J, Beever DE, Costello AR (2002) Heat stress in lactating cows: a review. Livestock Production Science 77, 59–91.
Heat stress in lactating cows: a review.Crossref | GoogleScholarGoogle Scholar |

Kelly RW (1992) Lamb mortality and growth to weaning in commercial merino flocks in Western Australia. Australian Journal of Agricultural Research 43, 1399–1416.
Lamb mortality and growth to weaning in commercial merino flocks in Western Australia.Crossref | GoogleScholarGoogle Scholar |

Lynch JJ, Alexander G (1977) Sheltering behaviour of lambing Merino sheep in relation to grass hedges and artificial windbreaks. Australian Journal of Agricultural Research 28, 691–701.
Sheltering behaviour of lambing Merino sheep in relation to grass hedges and artificial windbreaks.Crossref | GoogleScholarGoogle Scholar |

Lynch JJ, Alexander G (1980) The effect of time since shearing on sheltering behaviour by Merino sheep. Proceedings of the Australia Society of Animal Production 13, 325–328.

Lynch JJ, Donnelly JB (1980) Changes in pasture and animal production resulting from the use of windbreaks. Australian Journal of Agricultural Research 31, 967–979.
Changes in pasture and animal production resulting from the use of windbreaks.Crossref | GoogleScholarGoogle Scholar |

Lynch JJ, Hinch GN, Bouissour MF, Elwin RL, Green GC, Davies HI (1989) Social organization in young Merino and Merino × Border Leicester ewes. Applied Animal Behaviour Science 22, 49–63.
Social organization in young Merino and Merino × Border Leicester ewes.Crossref | GoogleScholarGoogle Scholar |

Macfarlane WV (1964) Terrestrial animals in dry heat: ungulates. In ‘Handbook of Physiology, section 4, Adaptation to the Environment’. (Ed. DB Hill) (Animal Physiology Society: Washington, DC)

Marshall JK (1981) Shelter for stock protection on farms . In ‘Trees in the rural landscape’. South Perth Civic Centre, 19–21 October 1981, pp. 1–21.

Miller DR, Rosenberg NJ, Bagley WT (1975) Wind reduction by a highly permeable tree shelterbelt. Agricultural Meteorology 14, 321–333.
Wind reduction by a highly permeable tree shelterbelt.Crossref | GoogleScholarGoogle Scholar |

Mottershead BE, Alexander G, Lynch JJ (1982) Sheltering behaviour of shorn and unshorn sheep in mixed or separate flocks. Applied Animal Ethology 8, 127–136.
Sheltering behaviour of shorn and unshorn sheep in mixed or separate flocks.Crossref | GoogleScholarGoogle Scholar |

Müller R, Schrader L (2003) A new method to measure behavioural activity levels in dairy cows. Applied Animal Behaviour Science 83, 247–258.
A new method to measure behavioural activity levels in dairy cows.Crossref | GoogleScholarGoogle Scholar |

Munro J (1962) The use of natural shelter by hill sheep. Animal Production 4, 343–349.
The use of natural shelter by hill sheep.Crossref | GoogleScholarGoogle Scholar |

Nixon-Smith WF (1972) The forecasting of chill risk ratings for new born lambs and off-shears sheep by use of a cooling factor derived from synoptic data. Working Paper 150. Bureau of Meteorology, Canberra.

Nowak R, Porter RH, Blache D, Dwyer CM (2008) Behaviour and the welfare of the sheep. In ‘The welfare of sheep’. (Ed. C Dwyer) pp. 81–134. (Springer Science: UK)

Pollard JC (1999) Shelter benefits for lamb survival in southern New Zealand. I. Postal survey of farmers’ opinion. New Zealand Journal of Agricultural Research 42, 165–170.
Shelter benefits for lamb survival in southern New Zealand. I. Postal survey of farmers’ opinion.Crossref | GoogleScholarGoogle Scholar |

Pollard JC (2006) Shelter for lambing sheep in New Zealand: a review. New Zealand Journal of Agricultural Research 49, 395–404.
Shelter for lambing sheep in New Zealand: a review.Crossref | GoogleScholarGoogle Scholar |

Pollard JC, Shaw KJ, Littlejohn RP (1999) A note on sheltering behaviour by ewes before and after lambing. Applied Animal Behaviour Science 61, 313–318.

Radostits OM, Gay CC, Blood DC, Hinchcliff KW (2000) ‘Veterinary medicine.’ 9th edn. (W.B. Saunders: London)

Rook AJ, Penning PD (1991) Synchronisation of eating, ruminating and idling activity by grazing sheep. Applied Animal Behaviour Science 32, 157–166.
Synchronisation of eating, ruminating and idling activity by grazing sheep.Crossref | GoogleScholarGoogle Scholar |

Ruiz-Vega J (1994) Agrometeorology of grass and grasslands in tropical and subtropical regions. CAgM Report No. 57, WMO/TD No. 614, p. 633. (World Meteorological Organisation: Geneva)

Russel A (1984) Body condition scoring of sheep. In Practice 6, 91–93.
Body condition scoring of sheep.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaL2c3jvVChsg%3D%3D&md5=b9f7cee3f1faeb2ab96b75158b86bfb5CAS |

Rutter SM, Beresford NA, Roberts G (1997) Use of GPS to identify the grazing areas of hill sheep. Computers and Electronics in Agriculture 17, 177–188.
Use of GPS to identify the grazing areas of hill sheep.Crossref | GoogleScholarGoogle Scholar |

Scott JP, Sutherland BL (1981) Grazing behaviour of Merinos on an undeveloped semi-arid tussock grassland block. NZ Journal of Experimental Agriculture 9, 1–9.

Slee J (1981) A review of genetic aspects of survival and resistance to cold in newborn lambs. Livestock Production Science 8, 419–429.
A review of genetic aspects of survival and resistance to cold in newborn lambs.Crossref | GoogleScholarGoogle Scholar |

Squires VR (1974) Grazing distribution and activity patterns of Merino sheep on a saltbush community in south-east Australia. Applied Animal Ethology 1, 17–30.
Grazing distribution and activity patterns of Merino sheep on a saltbush community in south-east Australia.Crossref | GoogleScholarGoogle Scholar |

Stafford-Smith DM, Noble IR, Jones GK (1985) A heat balance model for sheep and its use to predict shade-seeking behaviour in hot conditions. Journal of Applied Ecology 22, 753–774.
A heat balance model for sheep and its use to predict shade-seeking behaviour in hot conditions.Crossref | GoogleScholarGoogle Scholar |

Stevens D, Alexander G, Lynch JJ (1981) Do Merino ewes seek isolation or shelter at lambing? Applied Animal Ethology 7, 149–155.
Do Merino ewes seek isolation or shelter at lambing?Crossref | GoogleScholarGoogle Scholar |

Sturrock JW (1972) Aerodynamic studies of shelterbelts in New Zealand. 2. Medium-height to tall shelterbelts in mid Canterbury. New Zealand Journal of Science 15, 113–140.

Swain DL, Wark T, Bishop-Hurley GJ (2008) Using high fix rate GPS data to determine the relationships between fix rate, prediction errors and patch selection. Ecological Modelling 212, 273–279.
Using high fix rate GPS data to determine the relationships between fix rate, prediction errors and patch selection.Crossref | GoogleScholarGoogle Scholar |

Swain DL, Friend MA, Bishop-Hurley GJ, Handcock RN, Wark T (2011) Tracking livestock using global positioning systems – are we still lost? Animal Production Science 51, 167–175.
Tracking livestock using global positioning systems – are we still lost?Crossref | GoogleScholarGoogle Scholar |

Sykes AR, Griffiths RG, Slee J (1976) Influence of breed, birth weight and weather on the body temperature of new-born lambs. Animal Production 27, 43–49.

Taylor JA, Hedges DA (1984) Some characteristics of the trees used by sheep for diurnal camping and differences between the shade and nocturnal camps in a paddock on the Northern Tablelands of New South Wales. Australian Rangeland Journal 6, 3–9.
Some characteristics of the trees used by sheep for diurnal camping and differences between the shade and nocturnal camps in a paddock on the Northern Tablelands of New South Wales.Crossref | GoogleScholarGoogle Scholar |

Thomas DT, Wilmot MG, Alchin M, Masters DG (2008) Preliminary indications that Merino sheep graze different areas on cooler days in the southern rangelands of Western Australia. Australian Journal of Experimental Agriculture 48, 889–892.
Preliminary indications that Merino sheep graze different areas on cooler days in the southern rangelands of Western Australia.Crossref | GoogleScholarGoogle Scholar |

Trotter M, Lamb D (2008) GPS tracking for monitoring animal, plant and soil interactions in livestock systems. In ‘The proceedings of the 9th international conference on precision agriculture’, Denver, Colorado, USA.

Turner LW, Udal MC, Larson BT, Shearer SA (2000) Monitoring cattle behaviour and pasture use with GPS and GIS. Canadian Journal of Animal Science 80, 405–413.
Monitoring cattle behaviour and pasture use with GPS and GIS.Crossref | GoogleScholarGoogle Scholar |

Webster AJ (1997) Heat exchanges and energy balances of grazing animals. Scottish Forestry 51, 218–221.

Zar JH (1999) ‘Biostatistical analysis.’ 4th edn. (Prentice-Hall: Upper Saddle River, NJ)