Alison Haynes scite author profile

As interest in improving urban air quality grows, phytoremediation—amelioration through plants—is an increasingly popular method of targeting particulate matter (PM), one of the most harmful pollutants. Decades of research has proven that plants effectively capture PM from air; however, more information is needed on the dynamics of PM accumulation. Our study evaluated the effects of meteorological conditions on the dynamics of PM deposition, wash off and resuspension using four Australian tree species growing under natural conditions near a busy highway. Accumulation of PM on foliage was analyzed over the short term (daily changes) and over a longer time period (weekly changes). The results obtained were correlated with ambient concentrations of PM2.5 and PM10, rain intensity and wind strength. The highest accumulation of PM was recorded for Eucalyptus ovata (100.2 µg cm−2), which also had the thickest wax layer while the lowest was for Brachychiton acerifolius (77.9 µg cm−2). PM accumulation was highly changeable, with up to 35% different PM loads on the foliage from one day to the next. Importantly these dynamics are hidden in weekly measurements. Changes in PM deposition on the leaves was mostly affected by rain and to a lesser extent by wind, but the extent of the effect was species specific. The large PM fraction (10–100 µm) was the first to be removed from leaves, while the smallest PM fraction (0.2–2.5 µm) was retained for longer. Precipitation affects also PM retained in waxes, which until now were believed to be not affected by rain. This work demonstrates important interactions between PM load and weather, as well as adding to the small inventory of Australian native tree PM accumulation data.

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A Clean Air Plan for Sydney: An Overview of the Special Issue on Air Quality in New South Wales

Paton-Walsh

Rayner

Simmons

et al. 2019

Atmosphere

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This paper presents a summary of the key findings of the special issue of Atmosphere on Air Quality in New South Wales and discusses the implications of the work for policy makers and individuals. This special edition presents new air quality research in Australia undertaken by (or in association with) the Clean Air and Urban Landscapes hub, which is funded by the National Environmental Science Program on behalf of the Australian Government’s Department of the Environment and Energy. Air pollution in Australian cities is generally low, with typical concentrations of key pollutants at much lower levels than experienced in comparable cities in many other parts of the world. Australian cities do experience occasional exceedances in ozone and PM2.5 (above air pollution guidelines), as well as extreme pollution events, often as a result of bushfires, dust storms, or heatwaves. Even in the absence of extreme events, natural emissions play a significant role in influencing the Australian urban environment, due to the remoteness from large regional anthropogenic emission sources. By studying air quality in Australia, we can gain a greater understanding of the underlying atmospheric chemistry and health risks in less polluted atmospheric environments, and the health benefits of continued reduction in air pollution. These conditions may be representative of future air quality scenarios for parts of the Northern Hemisphere, as legislation and cleaner technologies reduce anthropogenic air pollution in European, American, and Asian cities. However, in many instances, current legislation regarding emissions in Australia is significantly more lax than in other developed countries, making Australia vulnerable to worsening air pollution in association with future population growth. The need to avoid complacency is highlighted by recent epidemiological research, reporting associations between air pollution and adverse health outcomes even at air pollutant concentrations that are lower than Australia’s national air quality standards. Improving air quality is expected to improve health outcomes at any pollution level, with specific benefits projected for reductions in long-term exposure to average PM2.5 concentrations.

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Roadside Moss Turfs in South East Australia Capture More Particulate Matter Along an Urban Gradient than a Common Native Tree Species

et al. 2019

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Urbanisation largely consists of removing native vegetation. Plants that remain interact with air quality in complex ways. Pollutants can be detrimental to plant growth; plants sometimes reduce air quality, yet some species also improve it through phytoremediation. A common pollutant of concern to human health in urban areas is particulate matter (PM), small particles of solid or liquid. Our study compared roadside moss turfs with leaves of a common Australian tree species, Pittosporum undulatum, in their ability to capture PM along an urban gradient. We sampled nine sites, three in each of three levels of urbanisation: low, medium, and high according to road type (freeway, suburban road, quiet peri-urban road). In addition, we deployed a PM monitor over a two-week period in one site of each urban level to provide concentrations of PM2.5. We used chlorophyll fluorescence (Fv/Fm; maximum quantum yield of photosystem II) as a measure of plant stress. We extracted PM in three size fractions using a filtration and washing technique with water and chloroform. Site averages for moss turfs were between 5.60 and 33.00 mg per g dry weight for total PM compared to between 2.15 and 10.24 mg per g dry weight for the tree leaves. We found that moss was more sensitive to increasing urbanisation, both in terms of trapping proportionately more PM than the leaves, and also in terms of photosynthetic stress, with moss Fv/Fm declining by a site average of 40% from low to high urban “class” (0.76 to 0.45). Our study highlights the stressors potentially limiting moss persistence in cities. It also demonstrates its ability to trap PM, a trait that could be useful in urban applications relating to urban greening or air quality.

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When commerce, science, and leisure collaborated: the nineteenth-century global trade boom in natural history collections

Coote¹,

Haynes²,

Philp³

et al. 2017

Journal of Global History

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Natural history products formed an important, but little studied, component of the globalization of trade in the mid nineteenth century. The trade, specifically in zoology, occurred in the face of considerable challenges. It penetrated some of the more remote areas of the globe; its products were heterogeneous and difficult to price; and exchange occurred among scientists, commercial traders, and collectors, each of whom had their own particular practices and mores. This article charts the dimensions of this trade and offers explanations about the ways in which its complexities were addressed through major developments in taxidermy, taxonomy, transport and business logistics, alternative forms of exchange, and trust-based networks. More broadly, our work speaks to current developments in global history, imperial networks, and the history of scientific collecting.

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The distribution of freshwater gastropods on four Vanuatu islands : Espiritu Santo, Pentecost, Éfate and Tanna (South Pacific)

Haynes

2000

Ann. Limnol. - Int. J. Lim.

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Streams and rivers on the Vanuatu islands of Espíritu Santo, Pentecost, Éfate and Tanna were sampled for gastropods and the physical and chemical characteristics of the water were investigated between 25/11/95 and 13/12/95. Twenty three species of neritid and forteen of thiarid prosobranch gastropods were found, together with the pulmonate Physastra nasuta and an opisthobranch species Strubellia. Six thiarid, two Clithon and one Neritina species, which are present in the Solomon Islands and South East Asia, but which are absent further south on New Caledonia and the Fiji islands, were found on the Vanuatu islands. On the other hand, Septana bougainvillei and Clithon pritchardi, which are present on the Fiji islands and New Caledonia, were found no further north than the southern Vanuatu island of Tanna. This suggests that Vanuatu is a transition zone for both northern and southern freshwater snails. Éfate had many more species (26)

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Alison Haynes

How Much Does Weather Matter? Effects of Rain and Wind on PM Accumulation by Four Species of Australian Native Trees

A Clean Air Plan for Sydney: An Overview of the Special Issue on Air Quality in New South Wales

Roadside Moss Turfs in South East Australia Capture More Particulate Matter Along an Urban Gradient than a Common Native Tree Species

When commerce, science, and leisure collaborated: the nineteenth-century global trade boom in natural history collections

The distribution of freshwater gastropods on four Vanuatu islands : Espiritu Santo, Pentecost, Éfate and Tanna (South Pacific)

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