The role of topography and plant functional traits in determining tropical reforestation success

1. Early establishment and sapling growth is a key phase in ensuring cost-effective reforestation success in relation to biodiversity outcomes. Therefore, species selection must consider the interaction between plant functional traits and the oftenchallenging and heterogeneous biophysical environmen...

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Bibliographic Details
Published in:The Journal of applied ecology 2018-03, Vol.55 (2), p.1029-1039
Main Authors: Cheesman, Alexander W., Preece, Noel D., van Oosterzee, Penny, Erskine, Peter D., Cernusak, Lucas A.
Format: Article
Language:English
Subjects:
Biodiversity
Cardwellia sublimis
cluster roots
Degradation
edaphic factors
Fitness
Flindersia brayleyana
functional traits
Heterogeneity
Indigenous species
Landscape
Leaves
Nutrients
organic matter
Pasture
Phosphorus
rainforest
Reforestation
slope
Soil conditions
Soil degradation
Soil nutrients
Soils
Spatial heterogeneity
Topography
Tropical forest restoration
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Summary:1. Early establishment and sapling growth is a key phase in ensuring cost-effective reforestation success in relation to biodiversity outcomes. Therefore, species selection must consider the interaction between plant functional traits and the oftenchallenging and heterogeneous biophysical environment of degraded landscapes. 2. In this study, we examine how microtopography (slope) results in spatial heterogeneity of soil nutrients, especially phosphorus (P) in a degraded tropical pasture landscape in Queensland, Australia. We then explore how this small-scale heterogeneity influences the growth of two native tree species, Cardwellia (C.) sublimis (Proteaceae) and Flindersia (F.) brayieyana (Rutaceae), which differ in key nutrient-acquisition strategies. 3. The proteaceous C. sublimis was found to be buffered from possible P limitation in degraded soils due to its effective P acquisition by cluster roots. In contrast to C. sublimis, which showed no difference in growth after 5 years across a range of soil conditions, F. brayieyana was found to be highly responsive to soil conditions with increased growth in low-slope, higher P availability areas. The ability of F. brayieyana to take advantage of high soil P levels, including the development of leaves with higher concentrations, resulted in an apparent switch in competitive fitness between these two species across a landscape gradient. 4. Synthesis and applications. In a detailed study of a landscape reforestation experiment in North Queensland, Australia, we demonstrate that site edaphic factors can vary within tens of metres due to topographic relief, and that species respond differently to these conditions. We therefore show the need to consider both the spatial heterogeneity of edaphic factors and the below-ground functional traits of potential reforestation species when planning reforestation programmes.
ISSN:0021-8901
1365-2664
DOI:10.1111/1365-2664.12980