Tma Harvest scite author profile

Tma Harvest

3Publications

43Citation Statements Received

138Citation Statements Given

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125

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University of Tasmania

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A footprint of tree‐genetics on the biota of the forest floor

Barbour¹,

Baker²,

O’Reilly-Wapstra³

et al. 2009

Oikos

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Understanding how far the effects of genes extend beyond the phenotype of an individual or population, is fundamental to the developing field of community genetics. We therefore assessed two geographically and genetically distinct populations of the Australian forest tree, Eucalyptus globulus, and the existence of genetic effects on a leaf litter invertebrate community and soil characteristics within a 15 year old common garden. Twenty trees per population were randomly selected for felling and placement of the apical branch next to the stump. This produced a leaf litter habitat of known genotype. Pitfall trap sampling for invertebrates, and linseed bioassay analyses of soil, were conducted within this habitat. Two key findings emerged. Firstly, assessment of 27 invertebrate orders (57 924 individuals) revealed significant population-level variation in leaf litter biodiversity (i.e. in community richness, abundance, composition and beta diversity). Secondly, considerable population-level differences in soil characteristics were evident based on linseed germination and growth responses. While recent findings in E. globulus have demonstrated consequences of genetic variation within forest trees for organisms that interact directly (i.e. proximally) with the living tree, these findings highlight the distal impacts that intraspecific genetic variation may have on communities and ecosystems. Such community genetic considerations have important implications for in situ community conservation, biodiversity management within restoration and plantation forestry, and our understanding of community-level evolutionary interactions involving foundation species.

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The latex capacity of opium poppy capsules is fixed early in capsule development and is not a major determinant in morphine yield

Harvest

Brown

Fist

et al. 2009

Annals of Applied Biology

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This study found that the latex capacity (mg latex mg 21 dry weight capsule) of opium poppy capsules is fixed early in capsule development. Latex capacity, which represents the proportion of the capsule wall allocated to laticifers (specialised cells for latex storage), had peaked in the capsule at 1 week after flowering. In contrast, the morphine content of capsules continued to increase with capsule development until commercial harvest. Morphine content was correlated with capsule mass and total latex mass, but there was no correlation between latex capacity and morphine yield. The most important morphological characteristic in terms of morphine end yield (commercial harvest stage) was capsule mass. The findings of this study demonstrate that although latex yield per plant is a highly heritable morphological characteristic, it may have limited potential for use in a breeding strategy aimed at increasing the morphine yield from capsules.

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Is decline in high altitude eucalypt forests related to rainforest understorey development and altered soil bacteria following the long absence of fire?

Harvest¹,

Davidson

2008

Austral Ecology

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The objective of this study was to identify attributes of the understorey vegetation, soil root biomass, soil chemistry and microbial community that may be associated with tree decline in high altitude eucalypt forests in Tasmania.The sites studied were in healthy eucalypt forest, forest in decline and forest containing dead eucalypts dominated by rainforest, in north-east (Eucalyptus delegatensis forest) and in north-west (Eucalyptus coccifera forest) Tasmania. In both regions bare ground, rock and shrubby species were associated with healthy sites whereas decline sites were associated with moss and a tall understorey with a high percentage cover of rainforest species. Healthy sites had low root biomass in the top 10 cm of the soil profile relative to decline and rainforest sites. Seedlings of high altitude species were grown in rainforest soil (0.314% N and 0.060% P) and healthy eucalypt soil (0.253% N and 0.018% P). The four eucalypt species studied had similar root to shoot ratio in the two soils, but the rainforest species, Nothofagus cunninghamii and Leptospermum lanigerum, had higher root to shoot ratio in the healthy eucalypt than in the rainforest soil. We produced three soil filtrates: (i) fungi and bacteria present; (ii) bacteria only present and; and (iii) sterile, from healthy, decline and rainforest sites in north-east and in north-west Tasmania and used linseed as a germination bioassay. Filtrates from the north-east decline and rainforest sites induced a significantly greater dysplastic germination response than healthy sites in (i) and (ii) filtrates, but this was not found in filtrates from sites in the north-west. We conclude that while the development of a rainforest understorey and elevated soil root biomass in the long absence of fire is generally associated with high altitude eucalypt decline, altered bacterial and/or chemical attributes of soil are not always associated with high altitude eucalypt decline.

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Tma Harvest

A footprint of tree‐genetics on the biota of the forest floor

The latex capacity of opium poppy capsules is fixed early in capsule development and is not a major determinant in morphine yield

Is decline in high altitude eucalypt forests related to rainforest understorey development and altered soil bacteria following the long absence of fire?

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