BIOMASS AND SOIL NUTRIENT POOLS IN NEWZEALAND We infer from the earlier model of nutrient balances in tussock grasslands (O’Connor and Harris 1992) and especially from its recent revision by Harris and O’Connor (1998), that animal transfers under extensive grazing practice and periodic rabbit plagues, and not fires, have been the most significant agents of continuing nu- trient wastage from unimproved rangeland systems in the past. We recall the espe- cially severe and prolonged declines in livestock numbers in drier regions of the high country' (O’Connor 1986). We infer that depletion compounded the problem of dete- rioration in semi-arid and dry sub-humid regions. We surmise that sustained depletion of grass cover in semi-arid and dry sub-humid districts that led to incipient desertification, may have thereby led to further loss of nutrients by surface soil erosion or accelerated mineralisation of organic matter and seasonal leaching, in line with recent research by Mclntosh et al. (1996). We believe from the evidence of the first Longslip study referred to (Mclntosh et al. 1981), that this kind of effect of severe depletion of vegetative cover could be significant, even in humid districts when biomass destruction on steep slopes led to exposure of bare soil or incomplete occupation of soil systems by vegetation. In review, high country pastoralism accomplished its principal transformations of vegetation very early in pastoral occupation. In the process of that biomass reduction, considerable amounts of nutrients were lost, especially those volatilised in fire. For another 100 years, many tall tussock grasslands persisted despite periodic buming in- volving íurther nutrient loss, because grazing pressure after fíre was seldom sufficient to prevent vegetation recovery. During all that time, in tall grasslands and in short, extensive pastoralism continued to wear away at nutrient capital, principally through animal grazing and nutrient transfer. For all this attrition of system nutrients, soil pools may show little net change, ex- cept where surface erosion and mineralisation of organic matter has been promoted by depletion of cover. Cultural revegetation with exotic herbaceous or forest cover may have as dramatic effects in rebuilding biomass nutrient pools without having much obvious effect on soil nutrient pools. The apparent ability of less arid high country soils and their organic regimes to buffer ecosystems against dramatic change in nutri- ents warrants further research attention. This should accompany research into the sig- nificance of organic matter maintenance in drier soils. High risks of Ioss of nutrients from biomass pools may affect forestry and animal husbandry systems in mountain environments, if systems are not well buffered or well managed. Both land uses share with natural vegetation systems the prospect and the need of rebuilding systems with nutrient frugality. References Buchanan, J. 1880. Manual of the Indigenous Grasses of New Zealand. Colonial Museum and Geo- Iogical Survey Department, Wellington. Buchanan, J. 1867. Botanical notes on the Kaikoura Mountains and Mount Egmont. New Zealand Geological Survey, Reports of Geological Explorations 1, 1-16. Buchanan, J. 1868. Sketch of the botany of Otago. Transactions N.Z. Institute 1 (Part III), 22-53. Butler, S. 1862. A First Year in Canterbury Settlement. Longman, Roberts and Green, London.

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