Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
Shopping Cart: ( empty )
You are here: Home > Journals > AN > AN11247
RESEARCH ARTICLE (Open Access)
Contents Vol 53(8)

Five-year survival and growth of farm forestry plantings of native trees and radiata pine in pasture affected by position in the landscape

Nick Reid A C , Jackie Reid B , Justin Hoad A , Stuart Green A , Greg Chamberlain A and J. M. Scott A
+ Author Affiliations
- Author Affiliations

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

B School of Science and Technology, University of New England, Armidale, NSW 2351, Australia.

C Corresponding author. Email: nrei3@une.edu.au

Animal Production Science 53(8) 817-826 https://doi.org/10.1071/AN11247
Submitted: 20 October 2011  Accepted: 2 March 2012   Published: 10 July 2013

Journal Compilation © CSIRO Publishing 2013 Open Access CC BY-NC-ND

Abstract

Woodlots ranging in area from 0.18 to 0.5 ha were established within the Cicerone Project farmlet trial on the Northern Tablelands of New South Wales, Australia, due to a lack of physical protection in most paddocks across the farmlets. Two percent of each farmlet was planted to trees to examine the commercial and environmental potential of seven species to provide shade and shelter for livestock, increase biodiversity or contribute to cash flow through farm forestry diversification. Eucalyptus caliginosa (timber), E. nitens (timber, pulp wood), E. radiata (essential oil) and Pinus radiata (timber) were planted in four upslope plots (1059–1062 m a.s.l.) in different paddocks. Casuarina cunninghamiana (timber, shelter), E. acaciiformis (shade, shelter and biodiversity), E. dalrympleana (timber, biodiversity), E. nitens (timber, pulp wood), E. radiata (essential oil) and P. radiata (timber) were planted in four low-lying plots (1046–1050 m a.s.l.) in separate paddocks, 400–1200 m distant. The pines and natives were planted in August and October 2003, respectively, into a well prepared, weed-free, mounded, planting bed. After 5 years, P. radiata (98% survival) and E. nitens (83%) survived best in upslope plots, reaching maximum heights of 7.8 and 8.8 m and exhibiting no or only modest insect damage, respectively. In low-lying plots, E. acaciiformis (75% survival) and E. dalrympleana (80%) survived best, reaching maximum heights of 5.5 and 4.5 m, and exhibiting little or only moderate insect damage, respectively. P. radiata exhibited 17–69% survival in the two lowest-lying plots but 100% survival in the other two lowland plots. On average, <50% of C. cunninghamiana, E. nitens and E. radiata survived in low-lying plots and survivors grew poorly. Early frosts in March 2004 were the primary cause of losses in low-lying plots, and frost, waterlogging, insect attack and some inadvertent livestock browsing explain the slower growth of species in low-lying plots compared with their performance upslope. P. radiata and perhaps E. nitens have commercial promise for timber production on Northern Tablelands farms, but only in higher (well drained, less frost-prone) parts of the landscape. E. acaciiformis can withstand the stressful growing conditions in open pasture in low-lying plots, and should be planted more widely for on-farm shade and shelter. E. dalrympleana can also be considered for amenity and biodiversity plantings in lower parts of the landscape.


References

Abel N, Baxter J, Campbell A, Cleugh H, Fargher J, Lambeck R, Prinsley R, Prosser M, Reid R, Revell G, Schimdt C, Stirzaker R, Thorburn P (1997) ‘Design principles for farm forestry: a guide to assist farmers to decide where to place trees and farm plantations on farms.’ (Rural Industries Research and Development Corporation: Canberra)

Ades PK, Simpson JA (1990) Clonal selection for resistance to Dothistroma needle blight in Pinus radiata. New Forests 4, 27–35.
Clonal selection for resistance to Dothistroma needle blight in Pinus radiata.Crossref | GoogleScholarGoogle Scholar |

Andrews S, Carr D, Ward H (2004) ‘A manual for planted farm forestry for the northern inland of New South Wales.’ (Greening Australia and Northern Inland Forestry Investment Group: Armidale)

Bird PR, Kearney GA, Jowett DW (1996) ‘Trees and shrubs for south west Victoria.’ (Agriculture Victoria: Hamilton)

Bonney N (1997) ‘Economic native trees and shrubs for South Australia.’ (Greening Australia: Campbelltown, SA)

Broadhurst LM, Lowe A, Coates DJ, Cunningham SA, McDonald M, Vesk PA, Yates C (2008) Seed supply for broadscale restoration: maximizing evolutionary potential. Evolutionary Applications 1, 587–597.

Carr D (2009) ‘Greening Australia species trials: northwest slopes and plains, Dorrigo Plateau and northern tablelands, New South Wales.’ Publication No. 09/087. (Rural Industries Research and Development Corporation: Canberra)

Cleugh H (2003) ‘Trees for shelter. A guide to using windbreaks on Australian farms.’ Joint Venture Agroforestry Program. (Rural Industries Research & Development Corporation: Canberra)

Cremer KW (1990) ‘Trees for rural Australia.’ (Inkata Press: Sydney)

Curtis D, Nadolny C, Ford HA (1995) Lessons from a network of dieback repairers. In ‘Nature conservation 4: the role of networks’. (Eds DA Saunders, JL Craig, EM Mattiske) pp. 175–186. (Surrey Beatty and Sons: Chipping Norton, NSW)

Doran JC, Kar AK, Larmour JS, Reid N (2005) Variation in frost tolerance of the 1,8-cineole-rich variants of the peppermint eucalypts, Eucalyptus radiata and E. dives. Australian Forestry 68, 137–143.

Duggin JA (1981) The use of ecological provinces and land systems in the study of Eucalyptus dieback on the New England Tablelands. In ‘Eucalypt dieback in forests and woodlands’. (Eds KM Old, GA Kile, CP Ohmart) pp. 245–260. (CSIRO: Melbourne)

Forestry Commission of New South Wales (1987) ‘Management plan for Walcha–Nundle management area.’ (FCNSW: Sydney)

Harris H (1998) An overview of the New England Farm Forestry Program and Regional Plantation Committee. In ‘Farm forestry for the north west conference proceedings’. pp. 53–61. (Greening Australia Northwest: Armidale)

Harrison SR, Venn TJ, Sales R, Mangaoang EO, Herbohn JF (2005) Estimated financial performance of exotic and indigenous tree species in smallholder plantations in Leyte Province. Annals of Tropical Research 27, 67–80.

Hatcher S, Hinch GN, Kilgour RJ, Holst PJ, Refshauge PG, Shands CG (2010) Lamb survival – balancing genetics, selection and management. Australian Farm Business Management Journal 7, 65–78.

Herbohn JL, Harrison SR, Emtage N, Norman P (2008) The current status of farm forestry in Australia. In ‘Agroforestry and farm forestry. Support systems to assess the viability of whole-farm and regional agroforestry enterprises’. Publication No. 08/097. (Eds S Harrison, J Herbohn) pp. 9–24. (Rural Industries Research and Development Corporation: Canberra)

Higgins JJ (2004) ‘An introduction to modern nonparametric statistics.’ (Brooks/Cole: Pacific Grove, CA)

Hinch GN, Lollback M, Hatcher S, Hoad J, Marchant R, Mackay DF, Scott JM (2013) Effects of three whole-farmlet management systems on Merino ewe fat scores and reproduction. Animal Production Science 53, 740–749.
Effects of three whole-farmlet management systems on Merino ewe fat scores and reproduction.Crossref | GoogleScholarGoogle Scholar |

Holst PJ, Marchant RS (2002) Design of specialist lambing paddocks. In ‘Wool and sheepmeat services program annual conference. 3–5 December 2002’. (NSW Agriculture: Paterson, NSW)

Hothorn T, Hornik K, van de Wiel MA, Zeilieis Z (2008) Implementing a class of permutation tests: the coin package. Journal of Statistical Software 28, 1–23.

Johnson IG, Cotterill IM, Raymond CA, Henson M (2008) Half a century of Pinus radiata tree improvement in New South Wales. New Zealand Journal of Forestry 52, 7–13.

Jones B (1997) The influence of information networks on the tree planting behaviour of Landcare networks. MResSc Thesis, University of New England, Armidale, Australia.

Kar AK (2003) Optimizing medicinal oil yield from Eucalyptus radiata plantations in northern New South Wales. PhD Thesis, University of New England, Armidale, Australia.

Krauss S, Sinclair L, Stingemore J, Hufford K (2010–11) A practical genetic contribution towards best-practice seed-sourcing guidelines for ecological restoration. Australasian Plant Conservation 19, 23–24.

Lodge GM, Whalley RDB (1989) Native and natural pastures on the Northern Tablelands of New South Wales: a review and annotated bibliography. Technical Bulletin 35. NSW Agriculture & Fisheries, Sydney.

Lowman MD, Heatwole H (1992) Spatial and temporal variability in defoliation of Australian eucalypts. Ecology 73, 129–142.
Spatial and temporal variability in defoliation of Australian eucalypts.Crossref | GoogleScholarGoogle Scholar |

Miles RL, Kinnear S, Friedel M, Grice AC, van Klinken RD, Setterfield S, Herpich M (2009) ‘Policy, institutional and managerial considerations in managing weeds with a commercial value.’ (Land & Water Australia: Canberra)

Nadolny C (2008) Eucalypt dieback: an increasing threat in rural landscapes? Australasian Plant Conservation 16, 26–27.

Noble IR (1989) Ecological traits of the Eucalyptus L’Hérit. Subgenera Monocalyptus and Symphyomyrtus. Australian Journal of Botany 37, 207–224.
Ecological traits of the Eucalyptus L’Hérit. Subgenera Monocalyptus and Symphyomyrtus.Crossref | GoogleScholarGoogle Scholar |

Ohmart CP, Edwards PB (1991) Insect herbivory on Eucalyptus. Annual Review of Entomology 36, 637–657.
Insect herbivory on Eucalyptus.Crossref | GoogleScholarGoogle Scholar |

R Development Core Team (2011) ‘R: a language and environment for statistical computing.’ (R Foundation for Statistical Computing: Vienna)

Reeve I (2006) ‘How woolgrowers manage native vegetation and biodiversity on New England wool properties.’ Land, Water & Wool Northern Tablelands Project Fact Sheet 7, a Technical Guide. (Southern New England Landcare: Armidale) Available at http://lwa.gov.au/files/products/land-water-and-wool/pf016371/pf016371.pdf [Verified 3 October 2011]

Reid N, Landsberg J (2000) Tree decline in agricultural landscapes: what we stand to lose. In ‘Temperate eucalypt woodlands in Australia: biology, conservation, management and restoration’. (Eds RJ Hobbs, CJ Yates) pp. 127–166. (Surrey Beatty: Chipping Norton, NSW)

Reid R, Wilson G (1986) ‘Agroforestry in Australia and New Zealand.’ (Goddard and Dobson: Box Hill, Vic.)

Reid N, Yan Z, Fittler J (1994) Impact of mistletoes (Amyema miquelii) on host (Eucalyptus blakelyi and Eucalyptus melliodora) survival and growth in temperate Australia. Forest Ecology and Management 70, 55–65.
Impact of mistletoes (Amyema miquelii) on host (Eucalyptus blakelyi and Eucalyptus melliodora) survival and growth in temperate Australia.Crossref | GoogleScholarGoogle Scholar |

Reid N, Boulton A, Nott R, Chilcott C (1997) Ecological sustainability of grazed landscapes on the Northern Tablelands of New South Wales (Australia). In ‘Frontiers in ecology: building the links’. (Eds N Klomp, I Lunt) pp. 117–130. (Elsevier Science: Oxford)

Reid N, Hoad J, Eveleigh C, Gaden C, Scott JM (2005) Establishment and early growth of trees in the Cicerone Project. In ‘The Cicerone Farms: under the microscope, proceedings of 2005 symposium’. (Ed. JM Scott) pp. 60–66. (The Cicerone Project and UNE Centre for Sustainable Farming Systems: Armidale, NSW)

Reid N, Green S, MacGregor C, Zirkler K (2006) ‘Fauna on case study farms.’ Land, Water & Wool Northern Tablelands Project Fact Sheet 6, a Technical Guide. (Southern New England Landcare: Armidale) Available at http://www.snelandcare.org.au/landwaterwool/FS6_Fauna.pdf [Verified 2 February 2012]

Sangha KK, Jalota RK (2005) Value of ecological services of exotic Eucalyptus tereticornis and native Dalbergia sissoo tree plantations of north-western India. Conservation & Society 3, 92–109.

Scott JM, Munro M, Rollings N, Browne W, Vickery PJ, Macgregor C, Donald GE, Sutherland H (2013) Planning for whole-farm systems research at a credible scale: subdividing land into farmlets with equivalent initial conditions. Animal Production Science 53, 618–627.
Planning for whole-farm systems research at a credible scale: subdividing land into farmlets with equivalent initial conditions.Crossref | GoogleScholarGoogle Scholar |

Shepherd KR, Banks JCG, Atyeo WJ (1976) Variation in Eucalyptus nitens Maiden in response to temperature and seed source. Australian Journal of Botany 24, 167–176.
Variation in Eucalyptus nitens Maiden in response to temperature and seed source.Crossref | GoogleScholarGoogle Scholar |

Stephen P, Reid R (1998) Designing farm forestry systems. In ‘Farm forestry for the north west. Conference proceedings’. pp. 12–19. (Greening Australia Northwest: Armidale)

Stone C, Bacon PE (1994) Relationships among moisture stress, insect herbivory, foliar cineole content and the growth of river red gum Eucalyptus camaldulensis. Journal of Applied Ecology 31, 604–612.
Relationships among moisture stress, insect herbivory, foliar cineole content and the growth of river red gum Eucalyptus camaldulensis.Crossref | GoogleScholarGoogle Scholar |

Stone C, Birk E (2001) Benefits of weed control and fertiliser application to young Eucalyptus dunnii stressed from waterlogging and insect damage. Australian Forestry 64, 151–158.

Sutherland H, Scott JM, Gray GD, Woolaston RR (2013) Creating the Cicerone Project: seeking closer engagement between livestock producers, research and extension. Animal Production Science 53, 593–601.
Creating the Cicerone Project: seeking closer engagement between livestock producers, research and extension.Crossref | GoogleScholarGoogle Scholar |

Taylor J, Taylor V (2004) ‘Case study: wool production & biodiversity working together for Jon & Vicki Taylor. Land, Water & Wool Northern Tablelands Project.’ (Southern New England Landcare: Armidale)

Taylor JA, Hedges DA, Whalley RDB (1984) The occurrence, distribution and characteristics of sheep camps on the Northern Tablelands of New South Wales. The Rangeland Journal 6, 10–16.
The occurrence, distribution and characteristics of sheep camps on the Northern Tablelands of New South Wales.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaL2c3psFWgtw%3D%3D&md5=4b729e7238ff468817806197d37aa3e3CAS |

Thompson RD (1969) The dynamic climatology of north-east New South Wales with particular reference to the mesoclimatology of the Armidale district. PhD Thesis, University of New England, Armidale, Australia.

Thompson D (1997) New England timber industry snapshot. (Centre for Agricultural & Regional Economics: Armidale)

Wall J (1997) Sustainability of the Armidale fuel wood industry on the Northern Tablelands of New South Wales: resource yield, supply, demand and management options. PhD Thesis, University of New England, Armidale, Australia.

Weatherstone J (2003) ‘Lyndfield Park: looking back, moving forward.’ (Greening Australia and Land & Water Australia: Canberra)

Wylie FR, Johnston PJM, Eisemann RL (1993) ‘A survey of native tree dieback in Queensland.’ Qld Forest Research Institute Research Paper No.16. (Qld Dept Primary Industries: Brisbane)