Cost-effectiveness of Different Revegetation Techniques for Slender Banksia

References

1. 1. Bullock J.M.,
   2. Aronson J.,
   3. Newton A.C.,
   4. Pywell R.F.,
   5. Rey-Benayas J.M.

   2011. Restoration of ecosystem services and biodiversity: conflicts and opportunities. Trends in Ecology & Evolution 26:541–549.

   OpenUrlCrossRefPubMedWeb of Science
2. 1. Close D.C.,
   2. Beadle C.L.,
   3. Brown P.H.

   2005. The physiological basis of containerised tree seedling ‘transplant shock’: a review. Australian Forestry 68:112–120.

   OpenUrlCrossRef
3. 1. Close D.C.,
   2. Ruthrof K.X.,
   3. Turner S.,
   4. Rokich D.P.,
   5. Dixon K.W.

   2009. Ecophysiology of species with distinct leaf morphologies: Effects of plastic and shadecloth tree guards. Restoration Ecology 17:33–41.

   OpenUrlCrossRefWeb of Science
4. 1. Enright N.J.,
   2. Lamont B.B.

   1992a. Recruitment variability in the resprouting shrub Banksia attenuata and non-resprouting congeners in the northern sandplain heaths of southwestern Australia. Ecologica 13:727–741.

   OpenUrl
5. 1. Enright N.J.,
   2. Lamont B.B.

   1992b. Survival, growth and water relations of Banksia seedlings on a sand mine rehabilitation site and adjacent scrub-heath sites. Journal of Applied Ecology 29:663–671.

   OpenUrlCrossRefWeb of Science
6. 1. Fisher J.L.,
   2. Veneklaas E.J.,
   3. Lambers H.,
   4. Loneragan W.A.

   2006. Enhanced soil and leaf nutrient status of a Western Australian Banksia woodland community invaded by Ehrharta calycina and Pelargonium capitatum. Plant and Soil 284:253–264.

   OpenUrlCrossRefWeb of Science
7. 1. George A

   . 1987. The Banksia Book. Kenthurst: Kangaroo Press.
8. 1. He T.,
   2. Lamont B.B.,
   3. Krauss S.L.,
   4. Enright N.J.,
   5. Miller B.P.

   2009. Long-distance dispersal of seeds in the fire-tolerant shrub Banksia attenuata. Ecography 32:571–580.

   OpenUrlCrossRefWeb of Science
9. 1. Lai P.C.,
   2. Wong B.S.

   2005. Effects of tree guards and weed mats on the establishment of native tree seedlings: Implications for forest restoration in Hong Kong, China. Restoration Ecology 13:138–143.

   OpenUrlCrossRefWeb of Science
10. 1. Lambers H.,
    2. Brundrett M.,
    3. Raven J.,
    4. Hopper S.

    2010. Plant mineral nutrition in ancient landscapes: high plant species diversity on infertile soils is linked to functional diversity for nutritional strategies. Plant and Soil 334:11–31.

    OpenUrlCrossRefWeb of Science
11. 1. Lamont B.B.,
    2. Enright N.J.,
    3. Witkowski E.T.F.,
    4. Groeneveld J.

    2007. Conservation biology of Banksias: insights from natural history to simulation modelling. Australian Journal of Botany 55:280–292.

    OpenUrlCrossRefWeb of Science
12. 1. Osborne J

    . 1990. The role of research in the practical application of direct seeding techniques. Pages 59–64 in ‘Sowing the Seeds’ Direct Seeding and Natural Regeneration Conference Proceedings. Adelaide: Greening Australia.
13. 1. Palmerlee A.,
    2. Young T.

    2010. Direct seeding is more cost effective than container stock across ten woody species in California. Native Plants Journal 11:89–102.

    OpenUrlAbstract/FREE Full Text
14. 1. Whisenant S.G.

    1999. Repairing damaged wildlands: a process oriented, landscape scale approach. Cambridge: Cambridge University Press.
15. 1. Woodhouse J.,
    2. Johnson M.S.

    1991. Effect of superabsorbent polymers on survival and growth of crop seedlings. Agricultural Water Management 20:63–70.

    OpenUrlCrossRefWeb of Science