Main content area

Underplanting degraded exotic Pinus with indigenous conifers assists forest restoration

Forbes, Adam S., Norton, David A., Carswell, Fiona E.
Ecological management & restoration 2015 v.16 no.1 pp. 41-49
Dacrycarpus, Dacrydium cupressinum, Pinus ponderosa, Podocarpus, canopy, carbon sequestration, conifers, ecosystem services, forest restoration, forest succession, forest trees, forests, frost, growth performance, overstory, plantations, planting, soil nutrients, species diversity, stand density, understory, New Zealand
We propose that nonharvest plantations could provide important opportunities for restoration of indigenous forest cover and related ecosystem services. We assessed the relative performance of three Podocarpaceae (podocarps) species planted into a degraded Ponderosa Pine (Pinus ponderosa) plantation, central North Island, New Zealand. We hypothesised that the degraded pine plantation overstorey could provide suitable conditions for the development of a podocarp‐dominated forest structure within ca. 50 years of underplanting and that podocarp growth would differ depending on the species suitability to the site. Rimu (Dacrydium cupressinum) significantly outperformed both Totara (Podocarpus totara) and Kahikatea (Dacrycarpus dacrydioides) in height and diameter growth. Rimu was now the structurally dominant tree where it occurred rather than pine. Per annum scaled carbon storage within Rimu stands was significantly greater than the Totara, Kahikatea or Pine stands. All podocarp species had attained a greater stand density compared to the pine overstorey. Possible reasons for the differing podocarp growth performance include different light requirements, response to soil nutrients, elevational distributions and frost susceptibility. There were significant differences in understorey species richness among the different stands of podocarp species. Underplanting accelerated successional development by incorporating late‐successional indigenous canopy dominants within the forest succession and overcame limitations imposed on forest succession at the site from its isolation from indigenous forest tree seed sources.