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RESEARCH ARTICLE
Contents Vol 65(7)

The importance of travelling stock reserves for maintaining high-quality threatened temperate woodlands

Thea O’Loughlin A E , Luke S. O’Loughlin A , Damian R. Michael A B , Jeffrey T. Wood A , Helen P. Waudby C D , Phillip Falcke C and David B. Lindenmayer A B
+ Author Affiliations
- Author Affiliations

A Fenner School of Environment and Society, The Australian National University, Canberra, ACT 0200, Australia.

B Threatened Species Recovery Hub of the National Environment Science Programme, Fenner School of Environment and Society, The Australian National University, Canberra, ACT 0200, Australia.

C Murray Local Land Services, PO Box 797, North Albury, NSW 2640, Australia.

D Present address: Institute for Land, Water and Society, Charles Sturt University, Thurgoona, NSW 2640, Australia.

E Corresponding author. Email: theaoloughlin@gmail.com

Australian Journal of Botany 65(7) 507-516 https://doi.org/10.1071/BT17114
Submitted: 16 June 2017  Accepted: 25 August 2017   Published: 21 September 2017

Abstract

Travelling stock reserves (TSRs) are thought to represent some of the highest-quality and least degraded remnants of threatened temperate woodland in south-eastern Australia. These public reserves have not had the same high levels of grazing pressure and other disturbances as woodland remnants on private land. Thus, TSRs are expected to be important for the protection of biodiversity in heavily cleared and modified landscapes. We tested the hypothesis that land tenure had significant effects on the quality of woodlands by comparing vegetation structural attributes between TSRs and remnant vegetation used for primary production purposes. Vegetation attributes were monitored in 155 permanent plots over 5 years in remnant temperate woodland sites in the Riverina bioregion of New South Wales. Overall, TSRs supported higher native plant species richness and were characterised by higher ground cover of native shrubs and less cover of exotic plant species than agricultural production areas. We found land tenure had significant effects on some vegetation attributes demonstrated to be important for threatened fauna. We attribute these results to TSRs having a history of lower grazing pressure compared with remnants managed for agricultural production. Our study provides empirical evidence to support the high conservation value of TSRs in formerly woodland-dominated, but now extensively cleared agricultural landscapes.

Additional keywords: box-gum grassy woodland, grazing, habitat quality, plant species richness, riverine woodlands, south-west New South Wales, stock route, TSR.


References

Bennett JM, Nimmo DG, Clarke RH, Thomson JR, Cheers G, Horrocks GFB, Hall M, Radford JQ, Bennett AF, Mac Nally R (2014) Resistance and resilience: can the abrupt end of extreme drought reverse avifaunal collapse? Diversity & Distributions 20, 1321–1332.
Resistance and resilience: can the abrupt end of extreme drought reverse avifaunal collapse?Crossref | GoogleScholarGoogle Scholar |

Briggs AL, Morgan JW (2011) Seed characteristics and soil surface patch type interact to affect germination of semi-arid woodland species. Plant Ecology 212, 91–103.
Seed characteristics and soil surface patch type interact to affect germination of semi-arid woodland species.Crossref | GoogleScholarGoogle Scholar |

Briggs SV, Taws NM, Seddon JA, Vanzella B (2008) Condition of fenced and unfenced remnant vegetation in inland catchments in south-eastern Australia. Australian Journal of Botany 56, 590–599.
Condition of fenced and unfenced remnant vegetation in inland catchments in south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Burrows GE (1999) A survey of 25 remnant vegetation sites in the South Western Slopes, New South Wales. Cunninghamia 6, 283–299.

Davidson I, O’Shannassy P (2017) More than just a long paddock: fostering native vegetation recovery in Riverina travelling stock routes and reserves. Ecological Management & Restoration 18, 4–14.
More than just a long paddock: fostering native vegetation recovery in Riverina travelling stock routes and reserves.Crossref | GoogleScholarGoogle Scholar |

Davidson I, Scammell A, O’Shannassy P, Mullins M, Learmonth S (2005) Travelling stock reserves: refuges for stock and biodiversity? Ecological Management & Restoration 6, 5–15.
Travelling stock reserves: refuges for stock and biodiversity?Crossref | GoogleScholarGoogle Scholar |

Dorrough J, Scroggie MP (2008) Plant responses to agricultural intensification. Journal of Applied Ecology 45, 1274–1283.
Plant responses to agricultural intensification.Crossref | GoogleScholarGoogle Scholar |

Dorrough J, McIntyre S, Brown G, Stol J, Barrett G, Brown A (2012) Differential responses of plants, reptiles and birds to grazing management, fertilizer and tree clearing. Austral Ecology 37, 569–582.
Differential responses of plants, reptiles and birds to grazing management, fertilizer and tree clearing.Crossref | GoogleScholarGoogle Scholar |

Driscoll DA, Catford JA, Barney JN, Hulme PE, Inderjit , Martin TG, Pauchard A, Pyšek P, Richardson DM, Riley S, Visser V (2014) New pasture plants intensify invasive species risk. Proceedings of the National Academy of Sciences of the United States of America 111, 16622–16627.
New pasture plants intensify invasive species risk.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC2cXhvVGksbvL&md5=86ff52b764c8728ad07ec084b219a8f9CAS |

Ford HA, Walters JR, Cooper CB, Debus SJS, Doerr VAJ (2009) Extinction debt or habitat change? – Ongoing losses of woodland birds in north-eastern New South Wales, Australia. Biological Conservation 142, 3182–3190.
Extinction debt or habitat change? – Ongoing losses of woodland birds in north-eastern New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar |

Gibbons P, Briggs SV, Ayers DA, Doyle S, Seddon J, McElhinny C, Jones N, Sims R, Doody JS (2008) Rapidly quantifying reference conditions in modified landscapes. Biological Conservation 141, 2483–2493.
Rapidly quantifying reference conditions in modified landscapes.Crossref | GoogleScholarGoogle Scholar |

Gibbons P, Briggs SV, Ayers D, Seddon J, Doyle S, Cosier P, McElhinny C, Pelly V, Roberts K (2009) An operational method to assess impacts of land clearing on terrestrial biodiversity. Ecological Indicators 9, 26–40.
An operational method to assess impacts of land clearing on terrestrial biodiversity.Crossref | GoogleScholarGoogle Scholar |

Gibbons P, Briggs SV, Murphy DY, Lindenmayer DB, McElhinny C, Brookhouse M (2010) Benchmark stem densities for forests and woodlands in south-eastern Australia under conditions of relatively little modification by humans since European settlement. Forest Ecology and Management 260, 2125–2133.
Benchmark stem densities for forests and woodlands in south-eastern Australia under conditions of relatively little modification by humans since European settlement.Crossref | GoogleScholarGoogle Scholar |

Hammill K, Penman T, Bradstock R (2016) Responses of resilience traits to gradients of temperature, rainfall and fire frequency in fire-prone, Australian forests: potential consequences of climate change. Plant Ecology 217, 725–741.
Responses of resilience traits to gradients of temperature, rainfall and fire frequency in fire-prone, Australian forests: potential consequences of climate change.Crossref | GoogleScholarGoogle Scholar |

Hobbs RJ, Huenneke LF (1992) Disturbance, diversity, and invasion: implications for conservation. Conservation Biology 6, 324–337.
Disturbance, diversity, and invasion: implications for conservation.Crossref | GoogleScholarGoogle Scholar |

Hobbs RJ, Yates CJ (2000) ‘Temperate eucalypt woodlands in Australia: biology, conservation, management and restoration.’ (Surrey Beatty & Sons: Sydney)

Hogan J, Phillips C (2011) Transmission of weed seed by livestock: a review. Animal Production Science 51, 391–398.
Transmission of weed seed by livestock: a review.Crossref | GoogleScholarGoogle Scholar |

Keith D (2004) ‘Ocean shores to desert dunes. The native vegetation of New South Wales and the ACT.’ (NSW Department of Environment and Conservation: Sydney)

Leblanc M, Tweed S, Van Dijk A, Timbal B (2012) A review of historic and future hydrological changes in the Murray-Darling Basin. Global and Planetary Change 80–81, 226–246.
A review of historic and future hydrological changes in the Murray-Darling Basin.Crossref | GoogleScholarGoogle Scholar |

Lee Y, Nelder J, Pawitan Y (2006) ‘Generalized linear models with random effects: unified analyses via h-likelihood.’ (CRC Press: Boca Raton, FL, USA)

Lentini PE, Fischer J, Gibbons P, Hanspach J, Martin TG (2011a) Value of large-scale linear networks for bird conservation: a case study from travelling stock routes, Australia. Agriculture, Ecosystems & Environment 141, 302–309.
Value of large-scale linear networks for bird conservation: a case study from travelling stock routes, Australia.Crossref | GoogleScholarGoogle Scholar |

Lentini PE, Fischer J, Gibbons P, Lindenmayer DB, Martin TG (2011b) Australia’s stock route network: 1. a review of its values and implications for future management. Ecological Management & Restoration 12, 119–127.
Australia’s stock route network: 1. a review of its values and implications for future management.Crossref | GoogleScholarGoogle Scholar |

Lindenmayer DB, Bennett AF, Hobbs RJ (2010a) ‘Temperate woodland conservation and management.’ (CSIRO Publishing: Melbourne)

Lindenmayer DB, Cunningham RB, Crane M, Montague-Drake R, Michael D (2010b) The importance of temperate woodland in travelling stock reserves for vertebrate biodiversity conservation. Ecological Management & Restoration 11, 27–30.
The importance of temperate woodland in travelling stock reserves for vertebrate biodiversity conservation.Crossref | GoogleScholarGoogle Scholar |

Lindenmayer D, Wood J, Montague-Drake R, Michael D, Crane M, Okada S, MacGregor C, Gibbons P (2012) Is biodiversity management effective? Cross-sectional relationships between management, bird response and vegetation attributes in an Australian agri-environment scheme. Biological Conservation 152, 62–73.
Is biodiversity management effective? Cross-sectional relationships between management, bird response and vegetation attributes in an Australian agri-environment scheme.Crossref | GoogleScholarGoogle Scholar |

Lindenmayer D, Willinck E, Crane M, Michael D, Okada S, Cumming C, Durant K, Frankenberg J (2013) Murray Catchment habitat restoration: Lessons from landscape-level research and monitoring. Ecological Management & Restoration 14, 80–92.
Murray Catchment habitat restoration: Lessons from landscape-level research and monitoring.Crossref | GoogleScholarGoogle Scholar |

Local Land Services and Department of Industry – Lands (2017) NSW travelling stock reserves review. Public consultation paper. Available at: https://s3-ap-southeast-2.amazonaws.com/ehq-production-australia/a86c93a1a5c5ad72f5d4e64c255beb2fe8d757f6/documents/attachments/000/054/281/original/NSW_TSR_Review_-_public_consultation_paper.pdf?1493168851 [Verified 11 September 2017].

McIntyre S, Huang Z, Smith A (1993) Patterns of abundance in grassy vegetation of the New-England tablelands; identifying regional rarity in a threatened vegetation type. Australian Journal of Botany 41, 49–64.
Patterns of abundance in grassy vegetation of the New-England tablelands; identifying regional rarity in a threatened vegetation type.Crossref | GoogleScholarGoogle Scholar |

McIntyre S, McIvor JG, Heard KM (2004) ‘Managing and conserving grassy woodlands.’ (CSIRO Publishing: Melbourne)

McIntyre S, Cunningham RB, Donnelly CF, Manning AD (2014) Restoration of eucalypt grassy woodland: effects of experimental interventions on ground-layer vegetation. Australian Journal of Botany 62, 570–579.
Restoration of eucalypt grassy woodland: effects of experimental interventions on ground-layer vegetation.Crossref | GoogleScholarGoogle Scholar |

Michael DR, Wood JT, Crane M, Montague-Drake R, Lindenmayer DB (2014) How effective are agri-environment schemes for protecting and improving herpetofaunal diversity in Australian endangered woodland ecosystems? Journal of Applied Ecology 51, 494–504.
How effective are agri-environment schemes for protecting and improving herpetofaunal diversity in Australian endangered woodland ecosystems?Crossref | GoogleScholarGoogle Scholar |

Michael DR, Kay GM, Crane M, Florance D, MacGregor C, Okada S, McBurney L, Blair D, Lindenmayer DB (2015) Ecological niche breadth and microhabitat guild structure in temperate Australian reptiles: Implications for natural resource management in endangered grassy woodland ecosystems. Austral Ecology 40, 651–660.
Ecological niche breadth and microhabitat guild structure in temperate Australian reptiles: Implications for natural resource management in endangered grassy woodland ecosystems.Crossref | GoogleScholarGoogle Scholar |

Michael DR, Wood JT, O’Loughlin T, Lindenmayer DB (2016) Influence of land sharing and land sparing strategies on patterns of vegetation and terrestrial vertebrate richness and occurrence in Australian endangered eucalypt woodlands. Agriculture, Ecosystems & Environment 227, 24–32.
Influence of land sharing and land sparing strategies on patterns of vegetation and terrestrial vertebrate richness and occurrence in Australian endangered eucalypt woodlands.Crossref | GoogleScholarGoogle Scholar |

Montague-Drake RM, Lindenmayer DB, Cunningham RB (2009) Factors affecting site occupancy by woodland bird species of conservation concern. Biological Conservation 142, 2896–2903.
Factors affecting site occupancy by woodland bird species of conservation concern.Crossref | GoogleScholarGoogle Scholar |

Nimmo DG, Haslem A, Radford JQ, Hall M, Bennett AF (2016) Riparian tree cover enhances the resistance and stability of woodland bird communities during an extreme climatic event. Journal of Applied Ecology 53, 449–458.
Riparian tree cover enhances the resistance and stability of woodland bird communities during an extreme climatic event.Crossref | GoogleScholarGoogle Scholar |

Possingham H, Nix H (2008) The long paddock scientist’s statement. Available at: https://cdn.wilderness.org.au/archive/files/long-paddock-scientists-statement.pdf [Verified 29 August 2017].

Pressey RL, Hager TC, Ryan KM, Schwarz J, Wall S, Ferrier S, Creaser PM (2000) Using abiotic data for conservation assessments over extensive regions: quantitative methods applied across New South Wales, Australia. Biological Conservation 96, 55–82.
Using abiotic data for conservation assessments over extensive regions: quantitative methods applied across New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar |

Prober SM, Thiele KR, Higginson E (2001) The Grassy Box Woodlands Conservation Management Network: picking up the pieces in fragmented woodlands. Ecological Management & Restoration 2, 179–188.
The Grassy Box Woodlands Conservation Management Network: picking up the pieces in fragmented woodlands.Crossref | GoogleScholarGoogle Scholar |

Prober SM, Lunt ID, Thiele KR (2002) Determining reference conditions for management and restoration of temperate grassy woodlands: relationships among trees, topsoils and understorey flora in little-grazed remnants. Australian Journal of Botany 50, 687–697.
Determining reference conditions for management and restoration of temperate grassy woodlands: relationships among trees, topsoils and understorey flora in little-grazed remnants.Crossref | GoogleScholarGoogle Scholar |

Prober SM, Thiele KR, Lunt ID, Koen TB (2005) Restoring ecological function in temperate grassy woodlands: manipulating soil nutrients, exotic annuals and native perennial grasses through carbon supplements and spring burns. Journal of Applied Ecology 42, 1073–1085.
Restoring ecological function in temperate grassy woodlands: manipulating soil nutrients, exotic annuals and native perennial grasses through carbon supplements and spring burns.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28Xkt1aiuw%3D%3D&md5=3d6357d20b8a86cccedf282b969deaceCAS |

Prober SM, Thiele KR, Speijers J (2016) Competing drivers lead to non-linear native–exotic relationships in endangered temperate grassy woodlands. Biological Invasions 18, 3001–3014.
Competing drivers lead to non-linear native–exotic relationships in endangered temperate grassy woodlands.Crossref | GoogleScholarGoogle Scholar |

R Core Team (2016) ‘A language and environment for statistical computing.’ (R Foundation for Statistical Computing: Vienna, Austria). Available at https://www.R-project.org/ [Verified 29 August 2017].

Ronnegard L, Shen X, Alam M (2010) hglm: a package for fitting hierarchical generalized linear models. The R Journal 2, 20–28.

Selwood KE, Clarke RH, Cunningham SC, Lada H, McGeoch MA, Mac Nally R (2015) A bust but no boom: responses of floodplain bird assemblages during and after prolonged drought. Journal of Animal Ecology 84, 1700–1710.
A bust but no boom: responses of floodplain bird assemblages during and after prolonged drought.Crossref | GoogleScholarGoogle Scholar |

Smiles B, Merchant C, Proft K (2011) ‘The NSW travelling stock routes and reserves network.’ (National Parks Association of NSW: Sydney)

Spooner PG (2005) On squatters, settlers and early surveyors: historical development of country road reserves in southern New South Wales. The Australian Geographer 36, 55–73.
On squatters, settlers and early surveyors: historical development of country road reserves in southern New South Wales.Crossref | GoogleScholarGoogle Scholar |

Spooner P, Lunt I, Robinson W (2002) Is fencing enough? The short-term effects of stock exclusion in remnant grassy woodlands in southern NSW. Ecological Management & Restoration 3, 117–126.
Is fencing enough? The short-term effects of stock exclusion in remnant grassy woodlands in southern NSW.Crossref | GoogleScholarGoogle Scholar |

Vesk PA, Nolan R, Thomson JR, Dorrough JW, Mac Nally R (2008) Time lags in provision of habitat resources through revegetation. Biological Conservation 141, 174–186.
Time lags in provision of habitat resources through revegetation.Crossref | GoogleScholarGoogle Scholar |

Yates CJ, Hobbs RJ (1997) Temperate eucalypt woodlands: a review of their status, processes threatening their persistence and techniques for restoration. Australian Journal of Botany 45, 949–973.
Temperate eucalypt woodlands: a review of their status, processes threatening their persistence and techniques for restoration.Crossref | GoogleScholarGoogle Scholar |

Zuur A, Ieno E, Walker N, Saveliev A, Smith G (2009) ‘Mixed effects models and extensions in ecology with R.’ (Springer: New York)