Ecophysiological limitations that affect water and carbon balance within large tree canopies: a comparative investigation. Supply of water to forest canopies is a major control of hydrological, atmospheric and biotic processes that impinge on groundwater stability, catchment yield, the fate of pollutants and plant productivity. Fundamental aspects of water transport and distribution within plant tissues remain obscured by conflicting experimental data and conflicting theoretical models that des ....Ecophysiological limitations that affect water and carbon balance within large tree canopies: a comparative investigation. Supply of water to forest canopies is a major control of hydrological, atmospheric and biotic processes that impinge on groundwater stability, catchment yield, the fate of pollutants and plant productivity. Fundamental aspects of water transport and distribution within plant tissues remain obscured by conflicting experimental data and conflicting theoretical models that describe physiological functioning.
Potential hydraulic constraints to the exchange of water and carbon between leaf and atmosphere require investigation before accurate models and informed decisions can be made with respect to the role of forests in biosphere-atmosphere processes. I will use large trees to investigate physiological and morphological determinants of hydraulic function and consider relationships between tree size, water requirements and water supply.
This project will foster comparative analyses of hydraulic functioning in large angiosperm and conifer species to elucidate universal principles that relate form to function and explain relationships between trees and their environment.
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Devising ecologically sustainable restoration programs for degraded rural landscapes by integrating landscape ecology, genetics and ecophysiology. Concern about tree decline in rural landscape is widespread, and disturbingly climate change is predicted to exacerbate this problem. Past ill-considered tree plantings have proven to be economically wasteful, achieved limited ecological resilience and negligible improvement of biodiversity values. Using Tasmania as a 'model system', we will advance t ....Devising ecologically sustainable restoration programs for degraded rural landscapes by integrating landscape ecology, genetics and ecophysiology. Concern about tree decline in rural landscape is widespread, and disturbingly climate change is predicted to exacerbate this problem. Past ill-considered tree plantings have proven to be economically wasteful, achieved limited ecological resilience and negligible improvement of biodiversity values. Using Tasmania as a 'model system', we will advance this problem by undertaking research to determine how seedling establishment, tree growth, carbon storage and water use are influenced by landscape setting, management history, climate change, species type and local varieties. This research will provide a much needed evidence to devise ecologically sustainable tree-plantings in southern Australia.Read moreRead less
Why isn’t the world full of mistletoe? An integrative approach to understanding dispersal, recruitment and distribution of parasitic plants. Parasitic plants are less affected by resource constraints than other plants, but they are characteristically rare in undisturbed habitats?an apparent paradox that challenges current thinking about ecological constraints. To determine which factors limit recruitment and distribution of parasitic plants, we will conduct integrative research on two mistleto ....Why isn’t the world full of mistletoe? An integrative approach to understanding dispersal, recruitment and distribution of parasitic plants. Parasitic plants are less affected by resource constraints than other plants, but they are characteristically rare in undisturbed habitats?an apparent paradox that challenges current thinking about ecological constraints. To determine which factors limit recruitment and distribution of parasitic plants, we will conduct integrative research on two mistletoes and a sandalwood in a structurally simple semi-arid shrubland, combining experimental germination trials and chemical analyses of hosts with ecological studies of seed vectors in a spatially-explicit framework. This study will also yield powerful insights into the general mechanisms underlying the relationships between life-history traits, species distributions and resource availability in dynamic landscapes.Read moreRead less
Mistletoe as a keystone resource---an experimental test. My recent synthesis of known interactions between animals and mistletoe suggests that mistletoe functions as a keystone resource, influencing diversity patterns in forested ecosystems worldwide. This project tests the keystone hypothesis explicitly for woodland communities using landscape-scale manipulation. In 40 woodland remnants, all mistletoes will be removed from 20, with subsequent seasonal censuses of woodland birds, arboreal mars ....Mistletoe as a keystone resource---an experimental test. My recent synthesis of known interactions between animals and mistletoe suggests that mistletoe functions as a keystone resource, influencing diversity patterns in forested ecosystems worldwide. This project tests the keystone hypothesis explicitly for woodland communities using landscape-scale manipulation. In 40 woodland remnants, all mistletoes will be removed from 20, with subsequent seasonal censuses of woodland birds, arboreal marsupials and butterflies. Incorporating data on spatial and temporal variation in fruit, nectar and arthropod availability, this study represents a model system for understanding the ecosystem-wide role of ecological keystones and the influence of resource distribution on diversity patterns in fragmented habitats generally.Read moreRead less
Is climate change altering the carrying capacity of the world’s forests? Planting trees at a global scale has been proposed as a key strategy to reduce global atmospheric CO2 levels. However, changing climatic conditions threaten the ability of forests to be net CO2 absorbers. In a warmer and drier future, forests may not be able to support as many trees. This project aims to identify how climate will alter
forest carrying capacity across millions of hectares of the world’s forests. By combining ....Is climate change altering the carrying capacity of the world’s forests? Planting trees at a global scale has been proposed as a key strategy to reduce global atmospheric CO2 levels. However, changing climatic conditions threaten the ability of forests to be net CO2 absorbers. In a warmer and drier future, forests may not be able to support as many trees. This project aims to identify how climate will alter
forest carrying capacity across millions of hectares of the world’s forests. By combining recent advances in forest modelling with large-scale and long-term forest inventory data, the project will develop a novel framework to forecast forest dynamics under climate change. It will provide specific guidelines to inform global reforestation strategies and foster climate-smart forest management.Read moreRead less