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1. Identifying digital dermatitis infection reservoirs in beef cattle and sheep

Author

Sullivan, Leigh

Subjects
636.2, QR Microbiology, QR180 Immunology, SF Animal culture
Abstract

Digital dermatitis (DD) is a superficial infectious dermatitis of the digital skin of cattle and sheep that can be very painful, causing severe lameness in affected animals. Bovine digital dermatitis (BDD) in dairy cattle has now been reported in most countries they are farmed, and DD in sheep, known as contagious ovine digital dermatitis (CODD) is rapidly emerging as a severe infectious foot disease since first reports from the UK in 1997. Spirochaetes, of the genus Treponema have frequently been found in large numbers in BDD lesions and are now considered the primary causative bacteria of BDD. Three treponeme phylogroups are consistently isolated from dairy cattle BDD in the UK and the USA, which are known as Treponema medium- like, Treponema phagedenis- like spirochaetes and Treponema pedis. Over the past 40 years research has focused on dairy cattle BDD and overlooked whether the disease exists in beef cattle herds in the UK, and whether the same aetiological agents are causal. There is also limited information on the causative bacteriological agents of CODD. Furthermore, no definitive transmission routes or infection reservoirs of DD in either cattle or sheep had thus far been delineated, with only a single study finding a potential reservoir site of DD treponemes in the dairy cattle gastrointestinal (GI) tract. Using molecular bacteriological studies it was found that CODD and beef cattle BDD, as in dairy cattle BDD, show a high association with the three DD treponeme phylogroups. All CODD and beef BDD lesions investigated had at least one of the three DD treponeme phylogroups present in the lesions and these treponemes were also isolated from a high proportion of lesions. No DD treponemes were detected in healthy sheep or beef cattle foot tissue. Upon 16S rRNA gene sequence analysis all isolates showed a high similarity, if not 100% identity, to representatives of each treponeme phylogroup isolated from dairy cattle BDD lesions, indicating a shared aetiology between DD in all three animals. Additionally, the same treponeme bacteria were detected and isolated from a new undefined foot disease in dairy goats in the UK indicating that cross-species transmission of DD may have occurred causing DD infection in a previously unaffected domestic livestock species. To understand potential transmission routes and infection reservoirs of DD, the host GI tract and hoof trimming equipment were investigated. Of the sheep gingival (n= 40) and rectal tissues (n= 40), 1/40 gingival tissues were positive for DD- associated treponemes (T. pedis), and 3/40 rectal tissues (one containing T. medium- like and two tissues containing T. pedis). No DD- associated treponeme DNA was amplified from beef cattle rectal tissues (n= 40), however 4/40 beef gingival tissues were positive for DD- associated treponemes (all containing T. phagedenis- like). A T. phagedenis- like DD treponeme was isolated from the rectal tissue of a CODD symptomatic sheep. Beef cattle (n= 41) and sheep (n= 79) faeces failed to amplify DD- associated Treponema DNA. Twenty two treponemes were isolated from sheep faeces; however, upon phylogenetic analysis these clustered with considered non-pathogenic treponemes, which interestingly exhibited farm specific diversity in their 16S rRNA gene. Trimming equipment was tested after being used to trim cattle and sheep hooves, and subsequently after disinfection of equipment. Of the blades used to trim DD symptomatic animals (n= 26, cattle and sheep combined), 25/26 were found to be positive for at least one of the DD Treponema phylotypes. This figure was reduced to 10/26 (38%) after disinfection of the blades. Following culture of a swab, an isolate belonging to the T. phagedenis- like spirochaetes was isolated from a knife sample after trimming a DD positive cow. Beef cattle sera from DD positive and negative farms were investigated to understand whether beef cattle’s perceived lower prevalence of BDD in the UK is due to a lack of exposure to treponemes, or a protective immune response. Beef cattle from DD positive farms appeared to produce a strong immunological response to treponemes, compared with DD negative farm animal sera. Therefore the perceived lower prevalence of DD in beef cattle does not appear to be due to a protective response in these animals, but more likely due to a lack of exposure to DD treponemes. In conclusion, these studies have produced vital information describing DD in beef cattle and sheep and their respective aetiological agents allowing for more appropriate treatments in the future. Additionally, given the two potential transmission routes delineated from the data, effective actions can be taken to prevent the spread of DD within current hosts and to limit emergence into yet unknown additional host species.

Published
2015
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5. Acidity fractions in acid sulfate soils and sediments: contributions of schwertmannite and jarosite

Author

Vithana, Chamindra L., Sullivan, Leigh A., Bush, Richard T., and Burton, Edward D.

Subjects
Soil chemistry -- Research, Sulfates -- Chemical properties -- Identification and classification -- Environmental aspects, Sediments (Geology) -- Chemical properties -- Environmental aspects -- Composition, Agricultural industry, Earth sciences
Abstract

In Australia, the assessment of acidity hazard in acid sulfate soils requires the estimation of operationally defined acidity fractions such as actual acidity, potential sulfidic acidity, and retained acidity. Acid--base accounting approaches in Australia use these acidity fractions to estimate the net acidity of acid sulfate soils materials. Retained acidity is the acidity stored in the secondary Fe/Al hydroxy sulfate minerals, such as jarosite, natrojarosite, schwertmannite, and basaluminite. Retained acidity is usually measured as either net acid-soluble sulfur ([S.sub.NAS]) or residual acid soluble sulfur ([S.sub.RAS]). In the present study, contributions of schwertmannite and jarosite to the retained acidity, actual acidity, and potential sulfidic acidity fractions were systematically evaluated using [S.sub.NAS] and [S.sub.RAS] techniques. The data show that schwertmannite contributed considerably to the actual acidity fraction and that it does not contribute solely to the retained acidity fraction as has been previously conceptualised. As a consequence, [S.sub.NAS] values greatly underestimated the schwertmannite content. For soil samples in which jarosite is the only mineral present, a better estimate of the addedjarosite content can be obtained by using a correction factor of 2 to [S.sub.NAS] values to account for the observed 50-60% recovery. Further work on a broader range of jarosite samples is needed to determine whether this correction factor has broad applicability. The [S.sub.RAS] was unable to reliably quantify either the schwertmannite or the jarosite content and, therefore, is not suitable for quantification of the retained acidity fraction. Potential sulfidic acidity in acid sulfate soils is conceptually derived from reduced inorganic sulfur minerals and has been estimated by the peroxide oxidation approach, which is used to derive the [S.sub.RAS] values. However, both schwertmannite and jarosite contributed to the peroxide-oxidisable sulfur fraction, implying a major potential interference by those two minerals to the determination of potential sulfidic acidity in acid sulfate soils through the peroxide oxidation approach., Introduction Over 500000 [km.sup.2] of acid sulfate soils (ASS) are found globally, mainly in highly populated, coastal plains (Sullivan et al. 2012). In Australia, nearly 215 000 [km.sup.2] of land [...]

Published
2013
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6. Surface and sub-surface salinity in and around acid sulfate soil scalds in the coastal floodplains of New South Wales, Australia

Author

Rosicky, Mark A., Slavich, Peter, Sullivan, Leigh A., and Hughes, Mike

Subjects
Soil acidity -- Research, Drainage -- Research, Oxidation-reduction reaction -- Research, Agricultural industry, Earth sciences
Abstract

Two-metre-deep soil profiles at 10 acid sulfate soil (ASS) scalds along the coast of New South Wales (NSW), Australia, were examined for salinity indicators. At 5 of the sites, permanently vegetated areas adjacent to the ASS-scalded land were also tested. Throughout the profiles, most sites had high soluble chloride ([Cl.sup.-]) concentrations (≤ 17 mg/g soil) and high soluble sulfate (S[O.sub.4.sup.2-]) concentrations (≤ 17 mg/g soil). Very low [Cl.sup.-] : S[O.sub.4.sup.2-] ratios (≤ 3) indicated active pyrite oxidation. Soil salinity (measured as electrical conductivity, EC) was extremely high in the top 2 m of most of the ASS scalds when related to the growth requirements of the typical introduced pasture species that were planted in these areas following drainage. This allows salinity, in addition to the extremely low pH of the surface soils, to contribute to land denudation, which can instigate or perpetuate pyrite oxidation and ASS-related land scalding. Although the sites had shallow watertables and soil-moisture content was high, the surface soil (top 0.10 m) of the scalds had consistently higher soluble [Cl.sup.-] and S[O.sub.4.sup.2-] concentrations and EC than adjacent vegetated areas. All coastal ASS areas investigated, typically freshwater backswamps used for cattle grazing, were underlain by estuarine-derived sediments containing saline ground water. The results demonstrate that revegetation of ASS scalds must include investigation and management of salinity, in addition to acidity, within the soil profile and at the soil surface. Additional keywords: Write oxidation, acid sulfate soil scald, acid sulfate soil salinity, backswamp management, backswamp drainage., Introduction The coastal floodplains in New South Wales (NSW), Australia are largely infilled barrier estuaries (Roy 1984). Extensive estuarine deposits, containing pyrite, were laid down approximately 10 000-6000 years ago [...]

Published
2006

7. Sample pre-treatment and the determination of some chemical properties of acid sulfate soil materials

Author

Maher, Crystal A., Sullivan, Leigh A., and Ward, Nicholas J.

Subjects
Soil acidity -- Chemical properties -- Management -- Research, Agricultural industry, Earth sciences, Company business management, Management, Chemical properties, Research
Abstract

This study provides a systematic analysis of the effect of common acid sulfate soil (ASS) sample pre-treatments (namely freezing, oven drying, and grinding) on chromium-reducible sulfur ([S.sub.CR]) and water-soluble sulfate determinations. The results show that oven drying and hand grinding of the samples prior to analysis resulted in a decrease in [S.sub.CR] (i.e. up to 20% compared to those of frozen samples). This lower [S.sub.CR] value was partly due to the oxidation of sulfides in the oven. For oven-dried ASS materials, more intensive grinding in a ring mill increased [S.sub.CR] values, most likely by abrading coatings from pyrite grains. For oven-dried mineral ASS materials the highest [S.sub.CR] values were obtained with 1 min of ring mill grinding, but for soils with appreciable organic matter (such as peat), 5 min of ring mill grinding gave the highest values. The results indicate that for some ASS materials, oven drying, regardless of the ensuing grinding procedure, results in underestimated [S.sub.CR] values. This study also demonstrates that an artifact of oven drying ASS materials can be greatly increased water-soluble sulfate contents. Additional keywords: chromium-reducible sulfur, water-soluble sulfate, grinding, freezing, drying, reduced inorganic sulfur., Introduction Acid sulfate soils (ASS) are a prominent feature of many low-lying coastal areas of Australia and around the world, with estimates of 20 million hectares of ASS worldwide (Dent [...]

Published
2004

8. Soil properties in and around acid sulfate soil scalds in the coastal floodplains of New South Wales, Australia

Author

Rosicky, Mark A., Sullivan, Leigh A., Slavich, Peter G., and Hughes, Mike

Subjects
Soil acidity -- Research, Floodplain ecology -- Research, Mud -- Composition -- Research, Agricultural industry, Earth sciences, Composition, Research
Abstract

Soil profiles in 10 persistently bare areas (i.e. scalds), mainly located in coastal backswamps of New South Wales, Australia, were examined for chromium-reducible sulfur content and selected chemical properties. At 5 of the sites, the adjacent paddocks with vegetation cover were also examined. All of the tested sites had been affected by the extensive drainage of the surrounding acid sulfate soil (ASS) landscapes and the consequent oxidation of pyrite. All sites had low pH values in the surface soil layers and these low pH values extended for up to 150 cm into the underlying unoxidised blue/grey pyritic estuarine gels. This can be attributed to the downward diffusion of acidity, either produced in the overlying oxidised zones of these soils or transported laterally across the landscape to these low-lying areas. Acidified unoxidised pyritic zones 120 cm thick can evidently form within several decades after drainage disturbance. At the scalded sites the depth from the soil surface to the main pyritic zone varied from the surface to >200 cm depth, indicating that this variable is not critical to ASS scald formation. For most of the sites examined, the chromium-reducible sulfur contents in the surface soil layers were appreciably higher than those in the immediately underlying soil layers. In most of the vegetated sites the chromium-reducible sulfur content in the surface layers was considerably higher than for the adjacent scalded site. The conditions necessary for pyrite formation (i.e. adequate supplies of organic matter, soluble iron, sulfate, and waterlogging) were found to exist at all sites, and the pyrite accumulations in these surface soil layers are considered to be neo-formed. The vegetated soil-profile pyrite and pH results were very similar to their scalded counterparts except that they had an extra 20-40 cm layer of vegetation and mulch that was missing from the scalded profiles. This indicates that there is considerable potential for more extensive scalding in these ASS areas. Additional keywords: subsurface pyrite, surface pyrite, pyrite oxidation, pyrite re-formation, acid sulfate soil pH, backswamp management, backswamp drainage., Introduction Acid sulfate soil (ASS) scalds are persistently bare areas of land associated with pyrite oxidation and ASS formation in drained coastal floodplains. In Australia, ASS scalds have not previously [...]

Published
2004

9. Occurrence of marcasite in an organic-rich Holocene estuarine mud

Author

Bush, Richard T., McGrath, Roger, and Sullivan, Leigh A.

Subjects
Soil mineralogy -- Research, Marine sediments -- Composition -- Research, Paleogeography -- Holocene, Agricultural industry, Earth sciences, Composition, Research
Abstract

Substantial marcasite and pyrite were recently identified in the upper-most unoxidised Holocene clay-peat sediments at Bungawalbin Swamp, a coastal backswamp on the Richmond River floodplain, north-east New South Wales, Australia. Marcasite (Fe[S.sub.2]), the mineral dimorph of pyrite, is considered a rare secondary mineral in estuarine sediments and its abundance at Bungawalbin Swamp is highly unusual. The morphology and distribution of marcasite in the sulfidic sedimentary profile was examined and compared with the palynological record. Marcasite, recognised by its distinctive platy morphology and disulfide composition, occurred exclusively within organic remnants in only the upper most 1 m of the sulfidic sediment layer. Pyrite occurred throughout the sulfidic profile. A dramatic change in the sedimentary conditions at Bungawalbin Swamp from a marine environment, characterised by the presence of avicenniaceae (i.e. mangrove), to a fresh-brackish environment correlates directly with the occurrence of marcasite. The occurrence of substantial marcasite may provide a valuable environmental proxy of fresh-brackish depositional swamp environments. Additional keywords: iron sulfide, pyrite, acid sulfate soil, sulfidic., Introduction Marcasite is the mineral dimorph of pyrite, sharing the same chemical composition of Fe[S.sub.2]. Diagenic pyrite is common in marine and estuarine sediments (Berner 1970), whereas diagenic marcasite has [...]

Published
2004

10. Redistribution of monosulfidic black oozes by floodwaters in a coastal acid sulfate soil floodplain

Author

Bush, Richard T., Sullivan, Leigh A., Fyfe, Diane, and Johnston, Scott

Subjects
Soil mineralogy -- Research -- Composition, Floodplain ecology -- Research, Agricultural industry, Earth sciences, Composition, Research
Abstract

The observations presented in this paper illustrate that significant amounts of monosulfidic black oozes (MBO) were eroded from flood mitigation drainage canals and redistributed across a coastal floodplain during a flood event associated with extreme deoxygenation and a massive fish kill. MBO are organic materials enriched in iron monosulfides and thick layers can accumulate in drains affected by acid sulfate soils. Laboratory studies have demonstrated that MBO can react rapidly when brought into suspension to completely consume dissolved oxygen. The abundance of MBO in flood mitigation drains and their extreme reactivity implicated MBO in the acute deoxygenation of the Richmond River, north-eastern New South Wales, Australia, following a major flood in February 2001. The field observations of MBO redistribution provide valuable evidence to help explain how these materials may interact and contribute to the deoxygenation of floodwaters. Additional keywords: iron sulfides, pyrite, monosulfides, acid volatile sulfur, deoxygenation, MBO., Introduction Monosulfidic black oozes (MBO) are organic materials enriched in iron monosulfides. Thick layers of MBO accumulate in many canals that drain acid sulfate soil (ASS) landscapes (Bush et al. [...]

Published
2004

11. Occurrence and abundance of monosulfidic black ooze in coastal acid sulfate soil landscapes

Author

Bush, Richard T., Fyfe, Diane, and Sullivan, Leigh A.

Subjects
Soil mineralogy -- Composition -- Analysis -- Research, Marine sediments -- Research -- Analysis, Soil research -- Analysis -- Research, Agricultural industry, Earth sciences, Analysis, Composition, Research
Abstract

Organic oozes enriched in iron monosulfides are called monosulfidic black ooze (MBO). The occurrence and abundance of MBO were quantified in natural tributaries and man-made drainage canals on a typical coastal river floodplain. Thick deposits of MBO occurred in drains and the protected upper reaches of tributaries in acid sulfate soil (ASS) areas. Acid-tolerant lilies grew prolifically in these areas, contributing large amounts of decaying organic debris. The MBO contained up to 6.3% acid-volatile sulfur (equivalent to 18% iron monosulfide), an order of magnitude greater than reported previously for natural sediments. It also contained up to 6% pyritic sulfur (equivalent to approximately 11% pyrite). Sulfate and iron from surrounding ASS combined with abundant organic matter and protected flow in ASS drains provide excellent conditions for sulfate reduction, leading to iron sulfide precipitation and the accumulation of organic detritus. When mixed with water, the iron monosulfide in MBO can react within minutes to completely consume dissolved oxygen. There are thousands of drains in ASS areas that may have thick deposits of MBO. The MBO has the potential to cause rapid and severe effects on water quality. The challenge is to develop management practices that reduce the formation and accumulation of MBO in acid sulfate landscapes. Additional keywords: pyrite, iron sulfides, de-oxygenation, water quality., Introduction Organic oozes enriched in iron monosulfides are called monosulfidic black ooze (MBO). The reduction of organic matter by sulfate-reducing bacteria in these sediments produces hydrogen sulfide (H2S), which reacts [...]

Published
2004

12. Factors contributing to the acid sulfate soil scalding process in the coastal floodplains of New South Wales, Australia

Author

Rosicky, Mark A., Sullivan, Leigh A., Slavich, Peter G., and Hughes, Mike

Subjects
Floodplains -- Research, Soil mineralogy -- Composition -- Research, Soil acidity -- Research, Agricultural industry, Earth sciences, Composition, Research
Abstract

Acid sulfate soil (ASS) scalds are persistently bare areas of land, occurring in the coastal backswamps of New South Wales (NSW), Australia. This study aims to understand why particular areas become ASS scalds, while adjacent areas remain vegetated. Some important soil parameters are compared and field observations are summarised. Soil core sampling in both ASS-scalded land and surrounding areas of permanently vegetated paddocks has demonstrated similar pyrite concentrations and depth occurrence, soil salinity, and soil acidity (pH). As conditions are similar beneath both vegetated and non-vegetated land, there must be some additional factors influencing which areas become denuded. Several disparate (usually human-induced) events were found to cause initial loss of vegetative cover. Once the soil is bare, surface evaporation causes toxic solutes to build up quickly at the soil surface and ASS scalding is perpetuated. Some of the intervening events include fire, flood, flood-scouting, deliberate topsoil removal, surface pyrite oxidation, saltwater inundation of freshwater paddocks, saltwater exclusion from saltmarsh or mangroves, changes to the vegetation regimes, excessive vehicular traffic, and over-grazing. Backswamp management needs to ensure that land underlain by shallow pyritic layers (or with soil-water that is enriched with the toxic by-products of pyrite oxidation) is not laid bare by accident or design. Similar soil chemical conditions underlying both ASS scalds and the surrounding permanently vegetated paddocks suggest that much larger areas are potentially at risk of ASS scalding. Additional keywords: pyrite oxidation, acid sulfate soil acidity, acid sulfate soil salinity, surface pyrite, subsurface pyrite, backswamp management, backswamp drainage., Introduction Coastal floodplains in New South Wales (NSW), Australia, are underlain by formerly estuarine sediments (Roy 1984). These estuary basin and intertidal muds contain large amounts of sulfides (mainly pyrite) [...]

Published
2004

13. The response of partially oxidised acid sulfate soil materials to anoxia

Author

Ward, Nicholas J., Sullivan, Leigh A., and Bush, Richard T.

Subjects
Soil mineralogy -- Research, Landscape assessment -- Research, Soil acidity -- Research, Agricultural industry, Earth sciences, Research
Abstract

Four acid sulfate soil (ASS) materials were subjected to anoxia after varying periods of oxidation to determine the geochemical response of these types of soils to flooding. The response of the partially oxidised ASS materials to the exclusion of oxygen was variable. The rate of sulfide oxidation, acidification, and the production of soluble oxidation products such as sulfate, iron, and aluminium generally decreased markedly when subjected to anoxia. However, especially in the highly acidic ASS materials (i.e. pH Additional keywords: soil acidification, pyrite oxidation, pyrite re-formation, chromium reducible sulfur, reduction, soil incubation., Introduction Acid sulfate soils (ASS) contain iron sulfides (principally pyrite) or the products of sulfide oxidation (White and Melville 1996). Unoxidised sulfidic materials are often referred to as potential ASS. [...]

Published
2004

14. Soil pH, oxygen availability, and the rate of sulfide oxidation in acid sulfate soil materials: implications for environmental hazard assessment

Author

Ward, Nicholas J., Sullivan, Leigh A., and Bush, Richard T.

Subjects
Soil mineralogy -- Analysis -- Measurement, Soil research -- Analysis -- Measurement, Soil acidity -- Measurement -- Analysis, Agricultural industry, Earth sciences, Analysis, Measurement
Abstract

The potential environmental hazard of acid sulfate soil (ASS) materials is directly related to both the net acidity and the rate that actual acidity is released from these soil materials into the environment. While current environmental hazard assessment techniques for ASS materials are able to quantify the net acidity, they do not take account of differences in the rate of sulfide oxidation (the dominant source of actual acidity) and differences in the rate of acidification. In this study the rate of sulfide oxidation during incubation was examined for 4 ASS materials. The effect of pH and oxygen availability on the rate of sulfide oxidation was assessed. The ASS materials were incubated in: (i) gauze where oxygen diffusion was not restricted, and (ii) sealed 100-µm-thick plastic bags which greatly limited oxygen diffusion. When oxygen diffusion was not restricted, an accelerated oxidation of sulfide occurred when the pH decreased below pH 4.0. The accelerated rate of sulfide oxidation at such low pH did not occur when oxygen diffusion was limited. This study indicates that the initial pH of an ASS material is a useful additional indicator of the potential environmental hazard of an ASS material when oxygen is expected to be non-limiting, such as when ASS materials are excavated and stockpiled. The recommended action criteria need to be reassessed, as the data indicate that the current criteria are conservative for alkaline and neutral ASS materials, but should be lowered for all acidic ASS materials (i.e. pH Additional keywords: pyrite oxidation, acidification, chromium reducible sulfur, soil incubation., Introduction The potential environmental hazard associated with acid sulfate soil (ASS) materials often results from the interaction between the net acidity, largely derived from sulfide oxidation, and the rate this [...]

Published
2004

15. Comparison of four methods for liberating various aggregate fractions in Vertosols to study their morphology

Author

Field, Damien J., Sullivan, Leigh A., Cattle, Stephen R., and Koppi, Anthony J.

Subjects
Agricultural industry, Earth sciences
Abstract

Topsoil samples from 3 Vertosols located at Narrabri, Warren, and Dalby were treated with 4 aggregate liberation methods to determine their suitability for analysis by scanning electron microscopy (SEM). In addition to the ability of each method to liberate aggregates for assessment, the potential for consequent morphological deformation was also considered. It was found that the aggregate slaking in water and modified wet sieving methods were suitable for liberating aggregates >100 µm in diameter, whereas the ultrasonic agitation method readily liberated aggregates 250, 100-250, 20-100, 2-20, and Additional keywords: microaggregate, aggregate hierarchy, soil micromorphology, scanning electron microscopy., Introduction The presence of stable aggregates at the soil surface affects the potential for soil to be utilised for crop production. For Vertosols, a lack of stable aggregates >100 µm [...]

Published
2004

16. Sulfide oxidation and acidification of acid sulfate soil materials treated with CaC[O.sub.3] and seawater-neutralised bauxite refinery residue

Author

Ward, Nicholas J., Sullivan, Leigh A., and Bush, Richard T.

Subjects
New South Wales -- Natural history, Soil chemistry -- Research -- Statistics -- Environmental aspects, Sulfates -- Statistics, Oxidation-reduction reaction -- Research -- Environmental aspects -- Statistics, Agricultural industry, Earth sciences
Abstract

Acid sulfate soil (ASS) materials that are subject to oxidation are often treated with neutralising agents to minimise the export of acidity that may result from pyrite oxidation. The effects of additions of both CaC[O.sub.3] and seawater-neutralised bauxite refinery residue (SNBRR) on the oxidation of sulfides and acidification were assessed for 4 ASS materials using laboratory incubation experiments. As the application of sub-optimal rates of neutralising materials can occur for a variety of reasons, the effect of application rates were also examined. Two application rates were chosen; a sub-optimal rate [approximately 20% of the theoretical neutralising requirement (NR)] and an excessive application rate (>250% of the NR). There was minimal sulfide oxidation and no acidification after the addition of excess CaC[O.sub.3] over the 180 days of incubation. The addition of excess SNBRR prevented acidification, but substantial sulfide oxidation still occurred. Following a brief initial increase in pH when sub-optimal rates of CaC[O.sub.3] and SNBRR were applied, the treated ASS materials rapidly acidified. For three of the ASS materials the addition of sub-optimal amounts of CaC[O.sub.3] had little impact on the rate of sulfide oxidation. However, for the other ASS material (a peat) both the rates of sulfide oxidation and acidification were accelerated by the addition of sub-optimal rates of CaC[O.sub.3], resulting in higher soluble Fe and Al concentrations than in the untreated ASS materials. For some of the ASS materials, sub-optimal applications of SNBRR resulted in elevated soluble Al. Additional keywords: pyrite oxidation, lime, chromium reducible sulfur, marcasite., Introduction The presence of acid sulfate soils (ASS) is a major constraint on land use and development in coastal areas of Australia (White and Melville 1996). ASS contain iron sulfides [...]

Published
2002

17. Assessment of peroxide oxidation for acid sulfate soil analysis. 1. Reduced inorganic sulfur

Author

Ward, Nicholas J., Sullivan, Leigh A., Bush, Richard T., and Lin, Chuxia

Subjects
Soils -- Composition -- Environmental aspects -- Measurement -- Usage -- Methods, Oxidizing agents -- Usage -- Environmental aspects -- Methods -- Measurement, Soil science -- Methods -- Usage -- Environmental aspects -- Measurement, Soil acidity -- Measurement -- Environmental aspects -- Usage -- Methods, Sulfur -- Composition -- Usage, Soil management -- Environmental aspects -- Measurement -- Usage -- Methods, Agricultural industry, Earth sciences
Abstract

The reduced inorganic sulfur fraction of 4 acid sulfate soil (ASS) materials was quantified using a variety of peroxide oxidation procedures. The temperature and duration of the peroxide oxidation were found to markedly affect the peroxide oxidisable sulfur determination. For 3 ASS materials with low total carbon content (i.e. Additional keywords: pyritic sulfur, peroxide oxidisable sulfur, chromium reducible sulfur, jarosite, sulfur budget., Introduction It is important to have an accurate and reliable measure of the reduced inorganic sulfur (generally assumed to be pyrite) content of acid sulfate soil (ASS) materials to avoid [...]

Published
2002

18. Assessment of peroxide oxidation for acid sulfate soil analysis. 2. Acidity determination

Author

Ward, Nicholas J., Sullivan, Leigh A., Bush, Richard T., and Lin, Chuxia

Subjects
Soils -- Composition -- Measurement -- Research -- Usage, Oxidizing agents -- Usage -- Measurement -- Research, Soil science -- Research -- Usage -- Measurement, Sulfur -- Composition -- Usage, Soil acidity -- Measurement -- Usage -- Research, Agricultural industry, Earth sciences
Abstract

Total sulfidic acidity (TSA) and total potential acidity (TPA) are derived from peroxide oxidation of acid sulfate soil materials (ASS), and are measures of the sulfidic acidity and the net acidity (net acidity = sulfidic acidity + actual acidity - acid neutralising capacity), respectively. The TSA and TPA of 4 ASS materials were determined using a variety of peroxide oxidation procedures and compared with the sulfidic acidity and net acidity derived from the use of an acid-base accounting model. TSA and TPA values both varied greatly with each peroxide oxidation method used, and both measures were found to substantially underestimate (i.e. by 23-85%) both sulfidic acidity (as determined from the chromium reducible sulfur content) and net acidity (as determined by acid-base accounting). A major cause of this underestimation of acidity was the retention of acidity through the precipitation of jarosite during peroxide oxidation. Substantial clay mineral dissolution appears to have occurred during peroxide oxidation of the ASS materials, as indicated by increased soluble aluminium. Such dissolution may contribute to the underestimation of both sulfidic and net acidity for the ASS materials using peroxide oxidation methods. The loss of acidity to the atmosphere was identified as a possible additional interference. This study shows the peroxide oxidation methods examined here are subject to substantial interferences, which caused large underestimations of acidity, and consequently, are unable to reliably provide accurate measurements of sulfidic and net acidity in ASS materials. Additional keywords: pyritic sulfur, total potential acidity, total sulfidic acidity, net acidity, jarosite, acid budget, acid neutralising capacity., Introduction The acid released upon the oxidation of pyrite in acid sulfate soils (ASS) can severely reduce water quality and may cause adverse effects to aquatic life, reduced crop production, [...]

Published
2002

19. The question of global warming: an exchange

Author

Nordhaus, William D., Zenghelis, Dimitri, Sullivan, Leigh, and Dyson, Freeman

Subjects
Carbon taxes -- Economic aspects, Carbon taxes -- Environmental aspects, Global warming -- Economic aspects, Literature/writing
Abstract

The costs of addressing the impacts of global warming and of reducing carbon emissions are discussed. The cost of implementing carbon taxes as a means of offsetting these costs is debated.

Published
2008

20. Identifying digital dermatitis infection reservoirs in beef cattle and sheep

Author

Sullivan, Leigh

Subjects
QR180, SF, QR
Abstract

Digital dermatitis (DD) is a superficial infectious dermatitis of the digital skin of cattle and sheep that can be very painful, causing severe lameness in affected animals. Bovine digital dermatitis (BDD) in dairy cattle has now been reported in most countries they are farmed, and DD in sheep, known as contagious ovine digital dermatitis (CODD) is rapidly emerging as a severe infectious foot disease since first reports from the UK in 1997. Spirochaetes, of the genus Treponema have frequently been found in large numbers in BDD lesions and are now considered the primary causative bacteria of BDD. Three treponeme phylogroups are consistently isolated from dairy cattle BDD in the UK and the USA, which are known as Treponema medium- like, Treponema phagedenis- like spirochaetes and Treponema pedis. \ud Over the past 40 years research has focused on dairy cattle BDD and overlooked whether the disease exists in beef cattle herds in the UK, and whether the same aetiological agents are causal. There is also limited information on the causative bacteriological agents of CODD. Furthermore, no definitive transmission routes or infection reservoirs of DD in either cattle or sheep had thus far been delineated, with only a single study finding a potential reservoir site of DD treponemes in the dairy cattle gastrointestinal (GI) tract. \ud Using molecular bacteriological studies it was found that CODD and beef cattle BDD, as in dairy cattle BDD, show a high association with the three DD treponeme phylogroups. All CODD and beef BDD lesions investigated had at least one of the three DD treponeme phylogroups present in the lesions and these treponemes were also isolated from a high proportion of lesions. No DD treponemes were detected in healthy sheep or beef cattle foot tissue. Upon 16S rRNA gene sequence analysis all isolates showed a high similarity, if not 100% identity, to representatives of each treponeme phylogroup isolated from dairy cattle BDD lesions, indicating a shared aetiology between DD in all three animals. Additionally, the same treponeme bacteria were detected and isolated from a new undefined foot disease in dairy goats in the UK indicating that cross-species transmission of DD may have occurred causing DD infection in a previously unaffected domestic livestock species. \ud To understand potential transmission routes and infection reservoirs of DD, the host GI tract and hoof trimming equipment were investigated. Of the sheep gingival (n= 40) and rectal tissues (n= 40), 1/40 gingival tissues were positive for DD- associated treponemes (T. pedis), and 3/40 rectal tissues (one containing T. medium- like and two tissues containing T. pedis). No DD- associated treponeme DNA was amplified from beef cattle rectal tissues (n= 40), however 4/40 beef gingival tissues were positive for DD- associated treponemes (all containing T. phagedenis- like). A T. phagedenis- like DD treponeme was isolated from the rectal tissue of a CODD symptomatic sheep. Beef cattle (n= 41) and sheep (n= 79) faeces failed to amplify DD- associated Treponema DNA. Twenty two treponemes were isolated from sheep faeces; however, upon phylogenetic analysis these clustered with considered non-pathogenic treponemes, which interestingly exhibited farm specific diversity in their 16S rRNA gene. Trimming equipment was tested after being used to trim cattle and sheep hooves, and subsequently after disinfection of equipment. Of the blades used to trim DD symptomatic animals (n= 26, cattle and sheep combined), 25/26 were found to be positive for at least one of the DD Treponema phylotypes. This figure was reduced to 10/26 (38%) after disinfection of the blades. Following culture of a swab, an isolate belonging to the T. phagedenis- like spirochaetes was isolated from a knife sample after trimming a DD positive cow.\ud Beef cattle sera from DD positive and negative farms were investigated to understand whether beef cattle’s perceived lower prevalence of BDD in the UK is due to a lack of exposure to treponemes, or a protective immune response. Beef cattle from DD positive farms appeared to produce a strong immunological response to treponemes, compared with DD negative farm animal sera. Therefore the perceived lower prevalence of DD in beef cattle does not appear to be due to a protective response in these animals, but more likely due to a lack of exposure to DD treponemes. \ud In conclusion, these studies have produced vital information describing DD in beef cattle and sheep and their respective aetiological agents allowing for more appropriate treatments in the future. Additionally, given the two potential transmission routes delineated from the data, effective actions can be taken to prevent the spread of DD within current hosts and to limit emergence into yet unknown additional host species.

Published
2016
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21. Pyrite micromorphology in three Australian Holocene sediments

Author

Bush, Richard T. and Sullivan, Leigh A.

Subjects
Soil research -- Australia -- Research, Pyrites -- Research, Paleogeography -- Holocene, Agricultural industry, Earth sciences, Research
Abstract

Abstract The distribution and morphology of pyrite in 3 Holocene estuarine sediments were examined using light microscopy, analytical scanning electron microscopy, and X-ray diffraction. The distribution and morphologies of pyrite [...]

Published
1999

24. Iron (III) accumulations in inland saline waterways, Hunter Valley, Australia: Mineralogy, micromorphology and pore-water geochemistry

Author

Isaacson, Lloyd, Burton, Edward, Bush, Richard Thomas, Mitchell, David, Johnston, Scott, MacDonald, Bennett, Sullivan, Leigh Albert, White, Ian, Isaacson, Lloyd, Burton, Edward, Bush, Richard Thomas, Mitchell, David, Johnston, Scott, MacDonald, Bennett, Sullivan, Leigh Albert, and White, Ian

Abstract

Discharge of Fe(II)-rich groundwaters into surface-waters results in the accumulation of Fe(III)-minerals in salinized sand-bed waterways of the Hunter Valley, Australia. The objective of this study was to characterise the mineralogy, micromorphology and

Published
2009

26. Reductive transformation of iron and sulfur in schwertmannite-rich accumulations associated with acidified coastal lowlands

Author

Burton, Edward D, Bush, Richard, Sullivan, Leigh A, Mitchell, David RG, Burton, Edward D, Bush, Richard, Sullivan, Leigh A, and Mitchell, David RG

Abstract

In Australia, the assessment of acidity hazard in acid sulfate soils requires the estimation of operationally defined acidity fractions such as actual acidity, potential sulfidic acidity, and retained acidity. Acid–base accounting approaches in Australia use these acidity fractions to estimate the net acidity of acid sulfate soils materials. Retained acidity is the acidity stored in the secondary Fe/Al hydroxy sulfate minerals, such as jarosite, natrojarosite, schwertmannite, and basaluminite. Retained acidity is usually measured as either net acid-soluble sulfur (SNAS) or residual acid soluble sulfur (SRAS). In the present study, contributions of schwertmannite and jarosite to the retained acidity, actual acidity, and potential sulfidic acidity fractions were systematically evaluated using SNAS and SRAS techniques. The data show that schwertmannite contributed considerably to the actual acidity fraction and that it does not contribute solely to the retained acidity fraction as has been previously conceptualised. As a consequence, SNAS values greatly underestimated the schwertmannite content. For soil samples in which jarosite is the only mineral present, a better estimate of the added jarosite content can be obtained by using a correction factor of 2 to SNAS values to account for the observed 50–60% recovery. Further work on a broader range of jarosite samples is needed to determine whether this correction factor has broad applicability. The SRAS was unable to reliably quantify either the schwertmannite or the jarosite content and, therefore, is not suitable for quantification of the retained acidity fraction. Potential sulfidic acidity in acid sulfate soils is conceptually derived from reduced inorganic sulfur minerals and has been estimated by the peroxide oxidation approach, which is used to derive the SRAS values. However, both schwertmannite and jarosite contributed to the peroxide-oxidisable sulfur fraction, implying a major potential interference by those tw

Published
2007

46. To the Editors.

Author

Zenghelis, Dimitri and Sullivan, Leigh

Subjects
*LETTERS to the editor, *GLOBAL warming
Abstract

A letter to the editor is presented in response to the article "The Question of Global Warming," by Freeman Dyson.

Published
2008

47. Iron staining of quartz beach sand in southeastern Australia

Author

Koppi, Tony J. and Sullivan, Leigh A.

Subjects
*SCANNING electron microscopy
Abstract

Although iron stains are a commonly described feature of marine sandgrains, the micromorphology and mineralogy of these features has notbeen determined previously. Light microscopy, scanning electron microscopy and X-ray diffractometry were used in this study to examine the grain surface features responsible for the iron staining of quartzitic beach sand along the coastline of southeastern Australia. These iron stains consist of iron oxide enriched phyllosilicate clay coatings. Iron oxides coating directly onto the quartz grains were not observed indicating that the phyllosilicate clay coatings are a co-requisite for iron staining. The main iron oxide mineral present in these features was goethite with minor amounts of hematite. The phyllosilicate clays in these coatings are kaolinite and illite. These platy claysare embedded into the quartz sand and are usually oriented with their flat surfaces perpendicular to that of the grain surface. [ABSTRACT FROM AUTHOR]

Published
1998

49. Morphology and behaviour of greigite from a Holocene sediment in Eastern Australia

Author

Bush, Richard T. and Sullivan, Leigh A.

Abstract

Greigite (FeS1·34) was identified in the black magnetic fraction of a freeze-dried unoxidised estuarine sediment by X-ray diffraction and scanning electron microscopy with quantitative energy dispersive X-ray analysis. The greigite crystals were tabular, unlike the cubic morphology described in the literature, and ranged in size up to 1 µm wide and 0·2 µm thick. The stability of greigite was monitored by changes in peak intensities in X-ray diffractograms for a sample of greigite after exposure to a range of oxidising conditions. Moist greigite (with an approximate moisture content of 0·35 g/g) oxidised within hours under ambient conditions at 25°C and within minutes at 88°C. However, greigite was relatively stable if kept air-dry. The results indicate standard sample-handling and oven-drying procedures presently used for sulfidic sediments to minimise oxidation actually enhance greigite oxidation and suggest greigite may have an important role in the acidification of these sediments in the field. sulfides, acid sulfate soils, magnetic minerals.

Published
1997

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