Abstract
Forests and wide-spaced trees are used widely in New Zealand to control erosion from shallow landslides. Species that offer similar or better levels of protection to those currently used are sought to meet future needs. Determining what plants to use and when they become effective is important for developing guidelines and policy for land management. This study aimed to obtain data on above- and below-ground plant growth for young exotic tree species considered potential candidates for future ‘erosion control forests’. The above- and below-ground growth of nine exotic tree species was assessed annually for 3 years from planting in a randomised block field trial. Whole trees were excavated and destructively sampled and several below-ground metrics (total root length of all roots > 1 mm in diameter, lateral root spread, total root biomass) assessed. Differences between species for most metrics at the time of planting carried through to Year 3. The best performing species across most metrics was alder, followed by blackwood, cherry, and cypress. Allometric models relating total root length and below-ground biomass to root collar diameter were established. Top performers with regard to root metrics were alder, cherry, and cypress followed by blackwood, radiata, and redwood. Root information contributes to improving our understanding of how and when, and at what planting density, plants become effective for controlling erosion in New Zealand.
Highlights
Forests and wide-spaced trees are used widely in New Zealand to control erosion from shallow landslides
This paper reports on the observations and results of that trial, compares results with other species for which below-ground New Zealand root data exist, and briefly discusses the implications for their use in erosion control
Data are presented as means, numbers in brackets are standard error of the mean. adiameter at breast height, broot collar diameter, ctotal above-ground biomass, dtotal below-ground biomass including stump/root bole, etotal root mass excluding the stump/root bole
Summary
Forests and wide-spaced trees are used widely in New Zealand to control erosion from shallow landslides. Danjon et al 1999; Mulatya et al 2002; Docker and Hubble 2008), and the statistical power of many relationships are generally limited by small sample sizes Such data, be they from replicated trials or from single tree observations, are necessary to both improve our general understanding of a species’ performance and to develop, calibrate, and validate either conceptual or quantitative models that incorporate root information for use in predicting the effects of vegetation on slope stability (Ekanayake & Phillips 1999, 2002; Schwarz et al 2010; Phillips et al 2011; Stokes et al 2014) and the effectiveness of revegetation policies (Phillips et al 2013b)
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