Free access
Issue
Ann. For. Sci.
Volume 62, Number 8, December 2005
Page(s) 865 - 871
DOI http://dx.doi.org/10.1051/forest:2005077
Published online 15 December 2005
References of Ann. For. Sci. 62 865-871
  1. Allen R.B., Partridge T.R., Lee W.G., Efford M., Ecology of Kunzea ericoides (A. Rich.) J. Thompson (kânuka) in east Otago, New Zealand, N.Z. J. Bot. 30 (1992) 135-149.
  2. Allen R.B., Clinton P.W., Davis M.R., Cation storage and availability along a Nothofagus forest development sequence in New Zealand, Can. J. For. Res. 27 (2002) 323-330.
  3. Batchelor C.L., Craib D.G., A variable area plot method for assessment of forest condition and trend, N.Z. J. Ecol. 8 (1985) 83-96.
  4. Benecke U., Nordmeyer A.H., Carbon uptake and allocation by Nothofagus solandri var. cliffortioides (Hook. f.) Poole and Pinus contorta Douglas ex Loudon ssp. contorta at montane and subalpine altitudes, in: Waring R.H. (Ed.), Carbon Uptake and Allocation in Subalpine Ecosystems as a Key to Management. Forest Ecosystems, Institute of Terrestrial Ecology, Merlewood, UK, 1982, pp. 131-140.
  5. Bergin D.O., Kimberley M.O., Marden M., Protective value of tea tree stands on erosion-prone hill country, East Coast, North Island, New Zealand, N.Z. J. For. Sci. 25 (1995) 3-19.
  6. Berry J., Björkman O., Photosynthetic response and adaptation to temperature in higher plants, Ann. Rev. Plant Physiol. 31 (1980) 491-543.
  7. Coomes D.A., Allen R.B., Scott N.A., Goulding C., Beets P., Designing systems to monitor carbon stocks in forests and shrublands, For. Ecol. Manage. 164 (2002) 89-108 [CrossRef].
  8. Davis M., Condron L., Impact of grassland afforestation on soil carbon in New Zealand: a review of paired-sites studies, Aust. J. Soil Res. 40 (2002) 675-690 [CrossRef].
  9. Davis M.R., Allen R.B., Clinton P.W., Carbon storage along a stand development sequence in a New Zealand Nothofagus forest, For. Ecol. Manage. 177 (2002) 313-321.
  10. Ekanayake J.C., Marden M., Watson A.J., Rowan D., Tree roots and slope stability: a comparison between Pinus radiata and kânuka, N.Z. J. For. Sci. 27 (1997) 205-215.
  11. Eyles G.O., The New Zealand Land Resource Inventory erosion classification, Water Soil Misc. Publ. 85, 1985, 61 p.
  12. Gifford R.G., Plant respiration in productivity models: conceptualisation, representation and issues for global terrestrial carbon-cycle research, Funct. Plant Biol. 30 (2003) 171-186.
  13. Hall G.M.J., Mitigating an organisation's future net carbon emissions by native forest restoration, Ecol. Appl. 11 (2001) 1622-1633.
  14. Hall G.M.J., Hollinger D.Y., Simulating New Zealand forest dynamics with a generalised temperate forest gap model, Ecol. Appl. 10 (2000) 115-130.
  15. Harcombe P., Allen R.B., Wardle J.A., Platt K.H., Spatial and temporal patterns in structure, biomass, growth, and mortality in a monospecific Nothofagus solandri var. cliffortioides forest in New Zealand, J. Sustain. For. 6 (1998) 313-345.
  16. Hart P.B.S., Clinton P.W., Allen R.B., Nordmeyer A.H., Evans G., Biomass and macro-nutrients (above- and below-ground) in a New Zealand beech (Nothofagus) forest ecosystem: implications for carbon storage and sustainable forest management, For. Ecol. Manage. 174 (2003) 281-294 [CrossRef].
  17. Hasselmann K., Climate change after Kyoto, Nature 390 (1997) 225-226 [CrossRef].
  18. Hinds H.V., Reid J.S., Forest trees and timbers of New Zealand, N.Z. For. Serv. Bull. 12 (1957) 1-221.
  19. IPCC, Land use change and forestry, in: Intergovernmental Panel for Climate Change, Revised 1996 Guidelines for National Greenhouse Gas Inventories: Reference Manual, Chapter 5, 1996, pp. 5.6-5.75.
  20. Jackson R.B., Banner J.L., Tobago E.G., Pockman W.T., Wall D.H., Ecosystem carbon loss with woody plant invasion of grasslands, Nature 418 (2002) 623-626 [CrossRef] [PubMed].
  21. Jessen M.R., Crippen T.F., Page M.J., Rijkse W.C., Harmsworth G.R., McLoed M., Land use capability classification of the Gisborne-East Coast region, Landcare Research Science Series 21, Manaaki Whenua Press, 1999.
  22. Leuning R., A critical appraisal of a combined stomatal-photosynthesis model for C3 plants, Plant Cell Environ. 18 (1995) 339-357.
  23. Leuning R., Kelliher F.M., de Pury D.G.G., Schulze E.-D., Leaf nitrogen, photosynthesis, conductance and transpiration: scaling from leaves to canopies, Plant Cell Environ. 18 (1995) 1183-2000.
  24. LCDB, The New Zealand Landcover Database, Version 1. New Zealand Ministry for the Environment, Wellington, New Zealand, 2000, http://www.mfe.govt.nz/issues/land/land-cover-dbase, 14/11/2003.
  25. MacLaren J.P., Plantation forestry: it's role as a carbon sink, in: Bouma W.J., Pearman G.I., Manning M.R. (Eds.), Greenhouse: Coping with Climate Change, CSIRO Publishing, Collingwood, Victoria, Australia, 2000, pp. 417-436.
  26. Madgwick H.A.I., Jackson D.S., Knight P.J., Above ground dry matter, energy and nutrient contents of tree in an age series of Pinus radiata plantations, N.Z. J. For. Sci. 7 (1977) 445-468.
  27. MAF, Farm Monitoring Unit, Ministry of Agriculture and Forestry, Wellington, New Zealand, 2003.
  28. Marden M., Rowan D., Protective value of vegetation on tertiary terrain before and during Cyclone Bola, East Coast, North Island, New Zealand, N.Z. For. Sci. 23 (1993) 255-263.
  29. MfE, Climate Change: The New Zealand Response. II. New Zealand's Second National Communication under the Convention for Climate Change, New Zealand Ministry for the Environment, Wellington, New Zealand, 1997.
  30. MfE, Climate Change, More Than Just Carbon Dioxide: Significance, Sources, and Solutions for Non-CO2 Greenhouse Gases in New Zealand, New Zealand Ministry for the Environment, Wellington, New Zealand, 1998.
  31. MfE, National Inventory Report, New Zealand Greenhouse Gas Inventory, 1999-2001, New Zealand Climate Change Office, Ministry for the Environment, Wellington, New Zealand, 2003.
  32. Newsome P.F.J., The Vegetative Cover Map of New Zealand, Water and Soil Misc. Publ. No. 112, National Water and Soil Conservation Authority, Wellington, New Zealand, 1987.
  33. NZCCP, Climate Change. The Government's Preferred Policy Package. New Zealand Climate Change Project, Department of Prime Minister and Cabinet, PO Box 55, Wellington, 2001.
  34. NZCCP, National Inventory Report. New Zealand. Greenhouse Gas Inventory 1990-2000, New Zealand Climate Change Project, Department of Prime Minister and Cabinet, PO Box 55, Wellington, 2002.
  35. Page M.J., Trustrum N.A., Dymond J.R., Sediment budget to assess the geomorphic effect of a cyclonic storm, New Zealand, Geomorph. 9 (1994) 169-188.
  36. Paul K.I., Polglase P.J., Nyakuengama J.G., Khanna P.K., Change in soil carbon following afforestation, For. Ecol. Manage. 168 (2002) 241-257 [CrossRef].
  37. Ramsey D., Spencer N., Caley P., Efford M., Hansen K., Lam M., Cooper D., The effects of reducing population density on contact rates between brushtail possums: implications for transmission of bovine tuberculosis, J. Appl. Ecol. 39 (2002) 806-818 [CrossRef].
  38. Rahmstorf S., Ganopolski A., Long term global warming scenarios computed with an efficient coupled climate model, Climate Change 43 (1999) 353-367 [CrossRef].
  39. Scott N.A., Tate K.R., Ford-Robertson J., Giltrap D.J., Smith C.T., Soil carbon storage in plantation forests and pastures: land-use change implications, Tellus 51B (1999) 326-335.
  40. Scott N.A., White J.D., Townsend J., Whitehead D., Leathwick J., Hall. G., Marden M., Rogers, G., Watson A.J., Whaley, P., Carbon and nitrogen distribution and accumulation in a New Zealand scrubland ecosystem, Can. J. For. Res. 30 (2000) 1246-1255 [CrossRef].
  41. Scott N.A., Tate K.R., Giltrap D.J., Smith C.T., Wilde R.H., Newsome P.F., Davis M.R., Monitoring land-use change effects on soil carbon in New Zealand: quantifying baseline soil carbon stocks, Environ. Pollut. 116 (2002) S167-S186 [CrossRef] [PubMed].
  42. Tate K.R., Scott N.A., Parshotam A., Brown L., Wilde R.H., Giltrap D.J., Trustrum N.A., Gomez B., Ross D.J., A multi-scale analysis of a terrestrial carbon budget: is New Zealand a source or sink of carbon? Agric., Ecol. Environ. 82 (2000) 229-246.
  43. Tate K.R., Scott N.A., Saggar S., Giltrap D.J., Baisden W.T., Newsome P.F., Trotter C.M., Wilde R.H., Land-use change alters New Zealand's terrestrial carbon budget: uncertainties associated with estimates of soil carbon change between 1990-2000, Tellus 55B (2003) 365-377.
  44. Tate K.R., Wilde R.H., Gitrap D.J., Baisden W.T., Saggar S., Trustrum N.A., Scott N.A., Soil carbon changes and uncertainties with New Zealand land-use change, Proceedings of the Supersoils 2004 Conference, Sydney, Australia, 2005 (in press).
  45. Trotter C.M., Tate K.R., Saggar S., Scott N.A., Sutherland M.A., A multi-scale analysis of a national terrestrial carbon budget and the effects of land use change, in: Shiyomi M., Kawahata H., Koizumi H., Tsuda A., Awaya Y. (Eds.), Global Environmental Change in the Ocean and on Land, Terrapub, Tokyo, 2003, pp. 311-342.
  46. Trustrum N.A., Gomez B., Page M.J., Reid L.M., Hicks D.M., Sediment production, storage, and output: the relative role of large magnitude events in steepland catchments, Z. Geomorph. (Suppl.) 115 (1999) 71-86.
  47. Trustrum N.A., Thomas V.J., Lambert M.G., Soil slip erosion as a constraint to hill country pasture production, Proc. N.Z. Grass. Assoc. 45 (1984) 66-76.
  48. UNFCCC, The Kyoto Protocol to the Convention on Climate Change, UN Climate Change Secretariat, Bonn, 1998.
  49. Wardle P., Vegetation of New Zealand, Cambridge University Press, Cambridge, UK, 1991.
  50. Whitehead D., Walcroft A.S., Scott N.A., Townsend J.A., Trotter C.M., Rogers G.N.D., Characteristics of photosynthesis and stomatal conductance in the shrubland species mânuka (Leptospermum scoparium) and kânuka (Kunzea ericoides) for the estimation of annual canopy carbon uptake, Tree Physiol. 24 (2004) 795-804 [PubMed].