Open AccessImpacts of poplar and alder on soil carbon in pasture-tree systems
Author(s) -
G. B. Douglas,
Ronaldo Vibart,
A.D. Mackay,
Mike Dodd,
Ian McIvor
Publication year - 2016
Publication title -
grassland research and practice series
Language(s) - English
Resource type - Journals
eISSN - 2463-4751
pISSN - 0110-8581
DOI - 10.33584/rps.16.2016.3231
Subject(s) - pasture , tonne , hectare , greenhouse gas , environmental science , alder , carbon sequestration , agroforestry , soil carbon , agronomy , carbon fibers , forestry , soil water , carbon dioxide , ecology , geography , mathematics , biology , soil science , agriculture , algorithm , composite number , archaeology
Wide-spaced trees on pastoral land (pasture-tree (PT) systems) are a widespread feature of many farmed landscapes. They offer the potential to increase carbon (C) storage, with implications for reducing atmospheric CO2-C. The effect of PT systems on soil C stocks to 1 m depth was determined for trees aged 14-16 years at densities of 73-111 stems per hectare at four North Island sites (two with poplar, two with alder). Across sites, mean soil C concentration was 1.9-8.5% and mean total soil C mass was 120-455 tonnes C/ha. For alder systems, total C mass of PT was 37% less than adjacent pasture (Open) at Poukawa (120 versus 189 tonnes C/ha), whereas at Ruakura, there was no significant difference between systems. Total C mass of PT systems involving poplar did not vary significantly from adjacent Open systems at Tikokino (328 versus 352 tonnes C/ha) and Woodville (154 versus 202 tonnes C/ha). Soil at 0.3-1.0 m depth comprised up to half of total C mass. Results suggested that poplar and alder had different effects on soil C. Keywords: pastoral hill country, wide-spaced trees, carbon sequestration, greenhouse gas (GHG) mitigation