Your search keyword '"Naidu R"' showing total 24 results

1. Warren Reservoir Catchment Studies: Stream Gradient and Stream Water Salinity

Author

International Association of Hydrogeologists. Congress (25th : 1994 : Adelaide, S. Aust.), Hollingsworth, I, Naidu, R, Cox, JW, and Fitzpatrick, RW

Published

1994

2. Arsenic in Australian Environment: An Overview.

Author

Smith, E., Smith, J., Smith, L., Biswas, T., Correll, R., and Naidu, R.

Subjects

ARSENIC poisoning, POLLUTION

Abstract

The most common source of elevated As concentrations in the Australian environment are attributable to anthropogenic activities. Mining activities have contributed to the contamination of soil and water primarily in Western Australia and Victoria. However, other anthropogenic activities such as agriculture, forestry and industry have also contaminated soil and water at a localized scale. Currently there are over 1000 As contaminated sites previously used as cattle dips for eradicating cattle ticks. Although As contamination of the environment may be severe enough to limit plant growth there appears to be few other reports identifying the impacts of the contaminants on other organisms, such as fish, mammals and humans. In Australia the impacts of metal/metalloid contamination of the environment are often unnoticed or ignored. However, the impacts of elements such as As may pass unnos due to the perception of the minimal impact a contaminant has on the environment. This paper presents an overview of As in the Australian environment including the sources of As contamination, soil, water and plant As content, and the pathways of exposure. [ABSTRACT FROM AUTHOR]

Published

2003

3. Chemistry of Inorganic Arsenic in Soils: II. Effect of Phosphorus, Sodium, and Calcium on Arsenic Sorption.

Author

Smith, E., Naidu, R., and Alston, A. M.

Subjects

INORGANIC chemistry, ARSENIC, SORPTION, SOILS, SOIL absorption & adsorption, HAZARDOUS waste sites, ALFISOLS

Abstract

There are more than 10000 arsenic (As) contaminated sites in Australia. The ability of soils at these contaminated sites to sorb As is highly variable and appreciable amounts of As have been recorded in the subsurface soils. The potential risk of surface and ground water contamination by As at these sites is a major environmental concern. Factors that influence adsorption capacity of soils influence the bioavailability and subsequent mobility of As in soils. In the present study we investigated the effect of PO3−4 and Na+ and Ca2+ on the sorption of AsV and AsIII by an Oxisol, a Vertisol, and two Alfisols. The presence of P (0.16 mmol L−1) greatly decreased AsV sorption by soils containing low amounts of Fe oxides (<100 mmol kg−1), indicating competitive adsorption between P and AsV for sorption sites. In contrast, the presence of a similar amount of P had little effect on the amount of AsV adsorbed by soils with high Fe content (>800 mmol kg−1). However, AsV sorption substantially decreased from 0.63 to 0.37 mmol kg−1 as P concentration was increased from 0.16 to 3.2 mmol L−1 in selected soils. This suggests increased competition between P and AsV for soil sorption sites, through either the higher affinity or the effect of mass action of the increasing concentration of P in solution. A similar effect of P on AsIII sorption was observed in the low sorbing Alfisol and high affinity Oxisol. However, the amount of AsIII sorbed by the Oxisol was much greater than the Alfisol for all treatments. The presence of Ca2+ increased the amount of AsV sorbed compared with that of Na+ and was manifested through changes in the surface charge characteristics of the soils. A similar trend in AsIII sorption was recorded with changes in index cation, although the effect was not as marked as recorded for AsV [ABSTRACT FROM AUTHOR]

Published

2002

4. Application of Capillary Electrophoresis to Anion Speciation in Soil Water Extracts: II. Arsenic.

Author

Naidu, R. and Smith, J.

Subjects

*CHEMICAL speciation, *SOIL chemistry, *SOIL solutions

Abstract

Presents a method for the speciation of arsenic and dimethylarsinic in natural soil solutions from contaminated sites in Australia. Composition of soil solution; Selection of operating conditions; Effect of run voltage and capillary temperature; Presence of other inorganic anions.

Published

2000

5. Chemistry of arsenic in soils: I. Sorption of arsenate and arsenite by four Australian soils

Author

Smith, E., Alston, A. M., and Naidu, R.

Subjects

ABSORPTION, SOIL science, SOIL pollution, ARSENIC, CHEMISTRY

Abstract

Ten soils varying widely in chemistry and mineralogy were used to examine the physical and chemical properties that influence As sorptionprocesses in soils. The sorption of As was measured using a batch technique with Asv and AsIII concentrations addedin background solutions of NaNO3 (0.003.3 mol L-1) and a range of pH values (2.0-85). The soils generally sorbed more Asv than AsIII at equivalent As concentrations. In general, highly oxidic soils sorbed three times more As' than soils containing small amounts of oxidic minerals. The effect of pH on As sorption varied considerably among the soils. In soils with low concentrations of oxidic minerals, increasing pH had little affect onthe amount of Asv sorbed while in highly oxidic soils, sorption of Asv decreased with increasing pH. This decrease was attributed to two interacting factors, the increasing negative surface potential on the plane of sorption and increasing amount of negatively charged Asv species present in soil solution. In contrast to Asv, sorption of AsIII increased with increasing pH. The effect of ionic strength on As sorption varied between the As species. In general, there was a pH (~3) below which Asv sorption decreased with increasing ionic strength and above which the reverse occurred. For AsIII species, increasing ionic strength had little effect on the amount of As sorbed. [ABSTRACT FROM AUTHOR]

Published

1999

6. Potential amendments of coal fly ash-derived zeolite to beryllium contaminated soil at a legacy waste disposal site.

Author

Islam MR, Sanderson P, Payne TE, and Naidu R

Subjects

Soil Pollutants chemistry, Australia, Zeolites chemistry, Coal Ash chemistry, Soil chemistry

Abstract

Management of Be contamination using industrial solid waste or solid waste-derived amendments is not well understood. This study investigated the potential of Australian coal fly ash (CFA), derived synthesized zeolite (SynZ) and chitosan-modified zeolite (ModZ), for Be immobilization at the Little Forest Legacy Waste Site (LFLS), a low-level radioactive waste disposal site near Sydney, Australia. In laboratory simulation experiments, the SynZ and ModZ were separately applied as an amendment to both naturally contaminated soil and simulated contaminated (spiked) soil. Different techniques, including pore water (PW), batch desorption, and microbial activities were assessed to provide insight into immobilization mechanisms. Results revealed that amendment of 2% ModZ in soils, substantially decreased Be concentrations in PW (PW Be ) ranging from 13.3% to 99.5% across all concentrations of Be. In contrast, PW Be increased while using SynZ, which could be attributed to the increased solubility of different organic-inorganic elements in PW. Moreover, batch desorption using Milli-Q water, simulated acid rainwater [H 2 SO 4 /HNO 3  = 60/40, (v/v), and 0.11 M acetic acid solution also revealed similar patterns of Be immobilization as found in PW Be analysis. Soil amendments boosted microbial biomass carbon, and phosphorous (MB C,P ), along with basal respiration (BR CO2 ). This indicates increased microbial activities, which are linked with environmental eco-friendliness. This effect was substantially noticed in ModZ-amended soils, exhibiting up to 22 times higher in BR CO2 values compared to unamended soil. Additionally, reduced PW Be was correlated with soluble organic-inorganic elements, desorbed Be in the batch study, and soil MBc. The differences in behavior between SynZ and ModZ underline the importance of carefully studying the various potential amendment materials and the need to evaluate their performance before application in field situations. This study highlights ModZ's effectiveness in eco-friendly Be immobilization, underlining the role of organic functional groups in zeolite architecture, a key factor in controlling Be in soils., Competing Interests: Declaration of competing interest Authors have no conflict of interest to declare., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

7. Concentrations of per- and polyfluoroalkyl substances in vegetables from Sydney and Newcastle, Australia.

Author

Liu S, Duan L, Shi F, Filippelli GM, and Naidu R

Subjects

Humans, Australia, Solid Phase Extraction, Tandem Mass Spectrometry, Fruit chemistry, Alkanesulfonic Acids analysis, Chromatography, Liquid, Vegetables chemistry, Fluorocarbons analysis, Food Contamination analysis

Abstract

Background: This study investigated per- and polyfluoroalkyl substances (PFASs) in 53 fruit and vegetable samples collected from a local wholesale and retail market in Sydney and a local supermarket in Newcastle. As there is limited information about PFAS levels in vegetables on the market, this study aimed to fill this gap and assess potential risks for humans through consumption of these vegetables., Methods: QuEChERS extraction - a solid-phase extraction method, a portmanteau word formed from 'quick, easy, cheap, effective, rugged and safe' - followed by enhanced matrix removal-lipid cleaning and liquid chromatography-tandem mass spectrometry analysis were used to detect 30 PFASs in vegetables., Results: PFOA was detected in 7 out of the 53 samples, with concentrations of 0.038-1.996 ng g -1 fresh weight; PFOS was detected in 2 samples only, with concentrations ranging from 0.132 to 0.911 ng g -1 fresh weight. PFHxS was not detected in any sample in this study. PFOA and PFOS concentrations measured in vegetables in this study constituted daily intake of 2.03 ng kg -1 body weight (BW) and 1.98 ng kg -1 BW, respectively, according to recommended daily vegetable intake and BW data from the Australian Bureau of Statistics. The most sensitive population group is girls of 4-8 years of age. These estimated exposure levels represent up to 1.3% of the tolerable daily intake for PFOA (160 ng kg -1 BW) and 9.9% for PFOS (20 ng kg -1 BW) according to Food Standards Australia New Zealand. Consumption of the vegetables from the study locations poses a marginal risk to human health. © 2024 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry., (© 2024 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.)

Published

2024

8. Bushfire-smoke trigger hospital admissions with cerebrovascular diseases: Evidence from 2019-20 bushfire in Australia.

Author

Hasnain MG, Garcia-Esperon C, Tomari YK, Walker R, Saluja T, Rahman MM, Boyle A, Levi CR, Naidu R, Filippelli G, and Spratt NJ

Subjects

Humans, Male, Female, Air Pollution adverse effects, Air Pollution analysis, Air Pollution statistics & numerical data, Aged, Australia epidemiology, Middle Aged, New South Wales epidemiology, Wildfires, Stroke epidemiology, Stroke etiology, Environmental Exposure adverse effects, Environmental Exposure statistics & numerical data, Patient Admission statistics & numerical data, Patient Admission trends, Cerebrovascular Disorders epidemiology, Cerebrovascular Disorders etiology, Hospitalization statistics & numerical data, Smoke adverse effects, Particulate Matter adverse effects, Particulate Matter analysis

Abstract

Introduction: Exposure to ambient air pollution is strongly associated with increased cerebrovascular diseases. The 2019-20 bushfire season in Australia burnt 5.4 million hectares of land in New South Wales alone, with smoke so severe it affected cities in Argentina, 11,000 km away. The smoke emitted by bushfires consists of both gaseous and particle components. It is important to note that exposure to particulate matter has been shown to be linked to a heightened risk of stroke, which is the primary kind of cerebrovascular illness, as well as an increased likelihood of hospitalisations and mortality. However, the available data is inadequate in terms of documenting the response of patients diagnosed with a proven cerebrovascular illness to bushfire smoke. Additionally, there is a lack of information about the health effects associated with particulate matter throughout the bushfire season and on days when smoke was present in 2019 and 2020.Therefore, we aimed to determine the effects of (i) short-term air pollution triggered by bushfires and (ii) high smoke days in increasing the daily number of hospital admissions with cerebrovascular diseases., Materials and Methods: Hospitalisation data were accessed from the admitted patient dataset from seven local Government areas of Hunter New England Local Health District. The bushfire period was defined from 1 October 2019 to 10 February 2020, and a same period from 2018-19 as the control. High bushfire smoke days were days when the average daily concentration of particulate matter was higher than the 95th percentile of the control period. Poisson regression models and fixed effect meta-analysis were used to analyse the data., Results: In total, 275 patients with cerebrovascular admissions were identified, with 147 (53.5%) during the bushfire (2019-20) and 128 (46.5%) in the control period (2018-19). There was no significant increase in daily admissions for cerebrovascular disease (Incidence Rate Ratio, IRR: 1.04; 95% CI: 0.81-1.34; p -value: 0.73), acute stroke (IRR: 1.15; 95% CI: 0.88-1.50; p -value: 0.29) or acute ischaemic stroke (IRR: 1.18; 95% CI: 0.87-1.59; p -value: 0.28), over the entire bushfire period. However, the high bushfire smoke days were associated with increased acute ischaemic stroke-related hospital admissions across lead 0-3 and the highest cumulative effect was observed with lead 0 (IRR:1.52; 95% CI: 1.01-2.29; p -value: 0.04). In addition, during the bushfire period, particulate matter, both PM 10 and PM 2.5 (defined as particulates that have an effective aerodynamic diameter of 10, and 2.5 microns, respectively), were also associated with increased acute ischaemic stroke admissions with a lag of 0-3 days., Discussion and Conclusion: The results suggested a possible association between particulate matter and high smoke days with increased hospital admissions due to acute ischaemic stroke during the recent Australian bushfire season., Competing Interests: Declaration of conflicting interestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2024

9. Effect of short-term exposure to air pollution on daily cardio- and cerebrovascular hospitalisations in areas with a low level of air pollution.

Author

Hasnain MG, Garcia-Esperon C, Tomari YK, Walker R, Saluja T, Rahman MM, Boyle A, Levi CR, Naidu R, Filippelli G, and Spratt NJ

Subjects

Humans, Cardiovascular Diseases epidemiology, Cardiovascular Diseases chemically induced, Australia, Female, Nitrogen Dioxide analysis, Male, Middle Aged, Sulfur Dioxide analysis, Ozone analysis, Aged, Particulate Matter analysis, Air Pollution, Air Pollutants analysis, Hospitalization statistics & numerical data, Cerebrovascular Disorders epidemiology, Cerebrovascular Disorders chemically induced, Environmental Exposure statistics & numerical data

Abstract

Exposure to air pollution is associated with increased cardio- and cerebrovascular diseases. However, the evidence regarding the short-term effect of air pollution on cardio- and cerebrovascular hospitalisations in areas with relatively low air pollution levels is limited. This study aims to examine the effect of short-term exposure to different air pollutants on hospital admissions due to cardio- and cerebrovascular diseases in rural and regional Australia with low air pollution. The study was conducted in five local Government areas of Hunter New England Local Health District (HNE-LHD). Hospitalisation data from January 2018 to February 2020 (820 days) were accessed from the HNE-LHD admitted patients' dataset. Poisson regression model was used to examine the association between the exposure (air pollutants) and outcome variables (hospitalisation due to cardio- and cerebrovascular disease). The concentrations of gaseous air pollutants, Sulphur Dioxide (SO 2 ), Nitrogen Dioxide (NO 2 ), Ozone (O 3 ), Carbon Monoxide (CO), and Ammonia (NH 3 ) were below national benchmark concentrations for every day of the study period. In single pollutant models, SO 2 and NO 2 significantly increased the daily number of cardio- and cerebrovascular hospitalisations. The highest cumulative effect for SO 2 was observed across lag 0-3 days (Incidence Rate Ratio, IRR: 1.77; 95% Confidence Interval, CI: 1.18-2.65; p-value: 0.01), and for NO 2 , it was across lag 0-2 days (IRR: 1.13; 95% CI: 1.02-1.25; p-value: 0.02). In contrast, higher O 3 was associated with decreased cardio- and cerebrovascular hospitalisations, with the largest effect observed at lag 0 (IRR: 0.94; 95% CI: 0.89-0.98; p-value: 0.02). In the multi-pollutant model, the effect of NO 2 remained significant at lag 0 and corresponded to a 21% increase in cardio- and cerebrovascular hospitalisation (95% CI: 1-44%; p-value = 0.04). Thus, the study revealed that gaseous air pollutants, specifically NO 2 , were positively related to increased cardio- and cerebrovascular hospitalisations, even at concentrations below the national standards., (© 2023. The Author(s).)

Published

2023

10. Arsenic speciation as well as toxic and nutrient elements in pantavat (overnight steeped rice).

Author

Rahman MM, Rinklebe J, and Naidu R

Subjects

Australia, Nutrients, Water, Cooking methods, Food Contamination analysis, Arsenic analysis, Oryza, Selenium analysis

Abstract

This study assessed the effect of soaking on the retention and removal of arsenic (As) along with other toxic elements and nutrients in three types of soaked rice or overnight steeped rice (pantavat), as this food dish was highlighted on the Australian MasterChef program in 2021 as a popular recipe. Results showed that brown rice contained twice as much As as basmati and kalijira rice. Cooking with As-free tap water using a rice cooker removed up to 30% of As from basmati rice. Around 21-29% removal of total As was observed in soaked basmati, brown, and kalijira rice. However, while 13% of inorganic As was removed from basmati and brown rice, no changes were noted in the kalijira rice. Regarding nutrient elements, both cooking and soaking rice caused significant enrichment of calcium (Ca) whereas potassium (K), molybdenum (Mo) and selenium (Se) were reduced substantially for the tested rice varieties. The nutrients like magnesium (Mg), iron (Fe), sulfur (S) and phosphorus (P) did not significantly change. The results indicated that soaking can minimize up to 30% As and soaked rice reduced few nutrients like K, Mo and Se. Data in this study highlights the retention and/or loss of toxic and beneficial nutrient elements in pantavat when As-free water is used to prepare this food., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

11. Influences of soil pH, iron application and rice variety on cadmium distribution in rice plant tissues.

Author

Siddique AB, Rahman MM, Islam MR, and Naidu R

Subjects

Australia, Cadmium analysis, Humans, Hydrogen-Ion Concentration, Iron analysis, Soil, Oryza, Soil Pollutants analysis

Abstract

Cadmium (Cd) is a widespread environmental contaminant, and its increasing concentrations in rice poses significant risks to human health. Globally, rice is a staple food for millions of people, and consequently, effective strategies to reduce Cd accumulation in rice are needed. This study investigates the effect of soil pH (Soil 1: 4.6; Soil 2: 6.6) and iron (Fe) application (at 0, 1.0 and 2.0 g/kg) on Fe plaque formation, Cd sequestration in Fe plaques and Cd bioaccumulation in different parts of the rice plant for three different Cd-graded paddy soils (0, 1.0 and 3.0 mg/kg, respectively) using two Australian rice cultivars under glasshouse conditions. Results show that grain and straw yield declined as Cd toxicity increased, and the toxic effects of Cd were lower in the Quest cultivar than in the Langi cultivar. With applications of Cd at 1.0 mg/kg and 3.0 mg/kg, Cd concentrations in rice grown in Soil 1 were 1.09 mg/kg and 1.37 mg/kg, respectively, while those in rice grown in Soil 2 were 0.38 mg/kg and 0.52 mg/kg, respectively. Soil pH significantly affected the bioaccumulation of Cd in different parts of the rice plant. At both levels of Cd application, Cd concentration was highest in the root, followed by the stem, leaf, husk and grain. Cd was more concentrated in Fe plaques formed by the application of Fe than in rice plant tissues. The Quest cultivar had a higher ability to produce Fe plaques and a 1.3- and 1.4-times higher Cd concentration compared with the Langi cultivar in Soils 1 and 2, respectively., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2022

12. The influence of soil properties on sorption-desorption of beryllium at a low level radioactive legacy waste site.

Author

Islam MR, Sanderson P, Johansen MP, Payne TE, and Naidu R

Subjects

Adsorption, Australia, Beryllium, Soil, Radioactive Waste, Soil Pollutants analysis

Abstract

This study examined the influence of soil physicochemical properties on the sorption, desorption and kinetics of beryllium (Be) uptake and release on soils from a legacy waste site in Australia. This information is needed to help explain the current distribution of Be at the site and evaluate potential future environmental risks. Sorption was determined by a batch study and key soil properties were assessed to explain Be retention. The soil was favourable for sorption of Be (up to 99%) due to organic content, negative surface charge, soil oxyhydroxides (Fe/Al/Mn-O/OH) and the porosity of the soil structure. Lesser sorption was observed in the presence of a background electrolyte (NaNO 3 ). Sorption closely followed pseudo second order kinetics and was best described by the Langmuir model. FTIR analysis suggested that chemisorption was the predominant mechanism of Be sorption. Desorption was very low and best described by the Freundlich model. The low desorption reflected the high K d (up to 6624 L/kg), and the presence of hysteresis suggested partially irreversible binding of Be with active surfaces of the soil matrix (minerals, SOM, oxyhydroxides of Fe/Al/Mn etc.). Intra-particle diffusion of Be and entrapment in the pores contribute to the irreversible binding. The sorption behaviour of Be helped to explain the relative immobility of Be at the site despite the significant quantities of Be disposed. Soil physicochemical properties were significant for Be sorption, through influencing both the uptake and desorption, and this demonstrates the implications of these measurements for evaluating potential future risks to the environment., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Crown Copyright © 2021. Published by Elsevier Ltd. All rights reserved.)

Published

2021

13. Sorption of PFOS in 114 Well-Characterized Tropical and Temperate Soils: Application of Multivariate and Artificial Neural Network Analyses.

Author

Umeh AC, Naidu R, Shilpi S, Boateng EB, Rahman A, Cousins IT, Chadalavada S, Lamb D, and Bowman M

Subjects

Adsorption, Australia, Neural Networks, Computer, Soil, Soil Pollutants analysis

Abstract

The influence of soil properties on PFOS sorption are not fully understood, particularly for variable charge soils. PFOS batch sorption isotherms were conducted for 114 temperate and tropical soils from Australia and Fiji, that were well-characterized for their soil properties, including total organic carbon (TOC), anion exchange capacity, and surface charge. In most soils, PFOS sorption isotherms were nonlinear. PFOS sorption distribution coefficients ( K d ) ranged from 5 to 229 mL/g (median: 28 mL/g), with 63% of the Fijian soils and 35% of the Australian soils showing K d values that exceeded the observed median K d . Multiple linear regression showed that TOC, amorphous aluminum and iron oxides contents, anion exchange capacity, pH, and silt content, jointly explained about 53% of the variance in PFOS K d in soils. Variable charge soils with net positive surface charges, and moderate to elevated TOC content, generally displayed enhanced PFOS sorption than in temperate or tropical soils with TOC as the only sorbent phase, especially at acidic pH ranges. For the first time, two artificial neural networks were developed to predict the measured PFOS K d ( R 2 = 0.80) in the soils. Overall, both TOC and surface charge characteristics of soils are important for describing PFOS sorption.

Published

2021

14. Health risks from trace elements in muscles of some commonly available fish in Australia and India.

Author

Rahman MM, Shehzad MT, Nayak AK, Sharma S, Yeasmin M, Samanta S, Correll R, and Naidu R

Subjects

Animals, Australia, Fishes, Humans, India, Muscles chemistry, Trace Elements analysis

Abstract

The levels of trace elements (As, Hg, Cr, Cd, Pb, Co, Ni, Cu, Mn and Zn) in commercially important fish species sampled from fish markets of Adelaide, Australia; canned fish from South Australian supermarkets; and fish markets of West Bengal, India were determined by inductively coupled plasma mass spectrometry (ICP-MS) after microwave digestion. Mercury was determined by using triple quadrupole ICP-MS. The accuracy of the methods was assessed with a certified standard reference material (NRCC-DORM-3 dogfish protein), and the results were compared with values reported in the literature. The results indicated considerable variations in the accumulation of trace elements among the fish species. The relationship between species with respect to trace element concentrations was examined using cluster analysis, which showed Indian fish species forming distinct groups from the others. Other than As in sardines, whiting and snapper and Hg in swordfish and snapper, the trace element concentrations were within permissible limits recommended by various standards. Based on the estimated daily intake (EDI), fish samples analysed in this study can be considered safe for human consumption as per the recommended daily dietary allowance limit fixed by various agencies. Continuous monitoring and assessments of fish metal(loid) content are needed to generate more data and safeguard human health.

Published

2020

15. Impact of waste-derived organic and inorganic amendments on the mobility and bioavailability of arsenic and cadmium in alkaline and acid soils.

Author

Rocco C, Seshadri B, Adamo P, Bolan NS, Mbene K, and Naidu R

Subjects

Agriculture, Animals, Australia, Biological Availability, Charcoal, Coal Ash chemistry, Hydrogen-Ion Concentration, Manure analysis, Metals analysis, Organic Chemicals analysis, Poultry, Soil chemistry, Zea mays, Arsenic chemistry, Cadmium chemistry, Soil Pollutants chemistry

Abstract

In agriculture, more and more frequently waste-derived amendments are applied to soil to improve physical and chemical properties. Nevertheless, in soils polluted by potentially toxic metal(loid)s, this agricultural practice may significantly affect the mobility and bioavailability of pollutants modifying the risks for biota and human health. This work was aimed to assess the influence of poultry manure, biochar and coal fly ash on the mobility and bioavailability of As and Cd spiked in two Australian soils with different pH and texture: Mount Gambier (MGB)-alkaline sandy clay loam and Kapuda (KPD)-acid loamy sand. After 4 weeks of incubation from spiking and another 4 weeks from amendment addition, the soils were analysed for pH and amounts of As and Cd in pore-water and following 1 M NH 4 NO 3 extraction. Bioavailable amounts were assessed by plant uptake, using Zea mays L. as test crop. In the alkaline MGB soil, the availability of Cd was reduced, while that of As increased. An opposite behaviour was observed in the acid KPD soil. All amendments, when added to KPD soil, increased pH and consequently reduced the mobility of Cd and increased the mobility of As. In MGB, the amendment addition had an effect only on As mobility and bioavailability, which increased likely as a result of the increased competition for adsorption with DOC released by organic compounds. These trends were confirmed by the amounts of Cd and As uptaken by maize plants.

Published

2018

16. Screening of metal uptake by plant colonizers growing on abandoned copper mine in Kapunda, South Australia.

Author

Nirola R, Megharaj M, Aryal R, and Naidu R

Subjects

Australia, Biodegradation, Environmental, Copper analysis, Copper metabolism, Environmental Restoration and Remediation instrumentation, Metals, Heavy analysis, Mining, Plants chemistry, Plants classification, South Australia, Trees chemistry, Trees classification, Trees metabolism, Environmental Restoration and Remediation methods, Metals, Heavy metabolism, Plants metabolism

Abstract

Systematic site survey for sample collection and analysis was conducted at a derelict copper (Cu) mine at Kapunda, South Australia. Cu concentrations in the soils at this former mine ranged from 65-10107 mg kg(-1). The pH and EC varied widely in the 3.9-8.4 and 152-7311 µS ranges, respectively. Nine plant species growing over the copper mine site were selected to screen for metal uptake to determine their suitability for phytoremediation. The Australian native tree species Eucalyptus camaldulensis indicated enrichment factor (EF) of 2.17, 1.89, and 1.30 for Cu, Zn, and Pb, respectively, suggesting that this species of tree can accumulate these metals to some degree. The stress-resistant exotic olive, Olea europaea exhibited EF of ≤ 0.01 for Cu, Cd, and Pb, and 0.29 for Zn, which is characteristic of an excluder plant. Acacia pycnantha, the Australian pioneer legume species with EF 0.03, 0.80, 0.32, and 0.01 for Cu, Zn, Cd, and Pb, respectively, emerged as another strong metal excluder and consequently as an ideal metal stabilizer.

Published

2016

17. Adsorption and desorption characteristics of methamphetamine, 3,4-methylenedioxymethamphetamine, and pseudoephedrine in soils.

Author

Pal R, Megharaj M, Kirkbride KP, and Naidu R

Subjects

Adsorption, Australia, Biodegradation, Environmental, Biological Availability, Thermodynamics, Illicit Drugs chemistry, Methamphetamine chemistry, N-Methyl-3,4-methylenedioxyamphetamine chemistry, Pseudoephedrine chemistry, Soil chemistry, Soil Pollutants chemistry

Abstract

This work presents, for the first time, information on the adsorption-desorption characteristics of illicit drugs and precursors in soils and an estimation of their potential bioavailability. The experiment was conducted using a batch equilibrium technique for the parent drugs methamphetamine and 3,4-methylenedioxymethamphetamine (MDMA) and the precursor pseudoephedrine in three South Australian soils varying in physiochemical properties. The individual compounds exhibited different adsorption mechanisms in the test soils, and the results fitted better with the Freundlich isotherm model (r (2) ≥ 0.99). The maximum adsorption capacity was recorded for pseudoephedrine (2,000 μg g(-1)). However, pseudoephedrine recorded lower organic carbon normalized adsorption coefficient values (<250 mL g(-1)), lower magnitudes of Gibb's free energy change, and higher percent desorption (73-92 %) compared to methamphetamine and MDMA. The results thus showed pseudoephedrine to be the most mobile compound in the soils under study, to have the highest availability for degradation of the three compounds, and to have the highest susceptibility to biotic degradation in test soils.

Published

2015

18. Arsenic speciation in Australian-grown and imported rice on sale in Australia: implications for human health risk.

Author

Rahman MA, Rahman MM, Reichman SM, Lim RP, and Naidu R

Subjects

Arsenic metabolism, Australia, Food Contamination economics, Food Safety, Humans, Oryza economics, Oryza growth & development, Oryza metabolism, Soil Pollutants analysis, Soil Pollutants metabolism, Arsenic analysis, Consumer Product Safety standards, Food Contamination analysis, Oryza chemistry

Abstract

Rice is an important route of arsenic (As) exposure to humans, especially populations with rice-based diets. Human health risk of As varies greatly with rice variety and country of origin. The purpose of the present study was to determine total and speciated As in Australian-grown and imported rice on sale in Australia to assess their health risk to consumers. The total As (tAs) concentrations in Australian-grown organic brown, medium grain brown, and organic white rice were 438±23, 287±03, and 283±18 μg kg(-1) dry weight (d wt), respectively. In Bangladeshi, Indian, Pakistani, and Thai rice imported and on sale in Australia, tAs concentrations were 56±05, 92±10, 82±06 and 172±24 μg kg(-1), respectively. Asian rice contained mainly inorganic As (iAs; 86-99%), whereas 18-26% of the tAs in Australian-grown rice was dimethylarsinic acid (DMA). Relatively higher concentrations of tAs in Australian-grown rice than that in imported rice of Asian origin suggest that Australian-grown rice may be a health risk for the consumers. It was estimated that Australian-grown organic brown rice can contribute up to 98% of the FAO/WHO recommended maximum tolerable daily intake limit of iAs (2.1 μg kg(-1) body wt day(-1)) for Asian immigrants. However, other Australian consumers including European immigrants are unlikely to be at risk to As from rice diets due to their lower rice consumption rates than that of Asian immigrants. The risk assessment showed that imported rice on sale in Australia was likely to pose a lower health risk to consumers than Australian-grown rice.

Published

2014

19. Monitored natural attenuation of a long-term petroleum hydrocarbon contaminated sites: a case study.

Author

Naidu R, Nandy S, Megharaj M, Kumar RP, Chadalavada S, Chen Z, and Bowman M

Subjects

Australia, Bacteria metabolism, Benzene analysis, Biodegradation, Environmental, Carbon Isotopes, Groundwater chemistry, Isotope Labeling, Naphthalenes analysis, Rain, Soil Pollutants analysis, Time Factors, Toluene analysis, Water Microbiology, Water Pollutants, Chemical analysis, Xylenes analysis, Environmental Monitoring, Hydrocarbons analysis, Petroleum analysis

Abstract

This study evaluated the potential of monitored natural attenuation (MNA) as a remedial option for groundwater at a long-term petroleum hydrocarbon contaminated site in Australia. Source characterization revealed that total petroleum hydrocarbons (TPH) as the major contaminant of concern in the smear zone and groundwater. Multiple lines of evidence involving the geochemical parameters, microbiological analysis, data modelling and compound-specific stable carbon isotope analysis all demonstrated natural attenuation of hydrocarbons occurring in the groundwater via intrinsic biodegradation. Groundwater monitoring data by Mann-Kendall trend analysis using properly designed and installed groundwater monitoring wells shows the plume is stable and neither expanding nor shrinking. The reason for stable plume is due to the presence of both active source and natural attenuation on the edge of the plume. Assuming no retardation and no degradation the contaminated plume would have travelled a distance of 1,096 m (best case) to 11,496 m (worst case) in 30 years. However, the plume was extended only up to about 170 m from its source. The results of these investigations provide strong scientific evidence for natural attenuation of TPH in this contaminated aquifer. Therefore, MNA can be applied as a defensible management option for this site following significant reduction of TPH in the source zone.

Published

2012

20. X-ray absorption and micro X-ray fluorescence spectroscopy investigation of copper and zinc speciation in biosolids.

Author

Donner E, Howard DL, de Jonge MD, Paterson D, Cheah MH, Naidu R, and Lombi E

Subjects

Australia, Copper analysis, Sewage chemistry, Soil Pollutants analysis, Spectrometry, X-Ray Emission methods, X-Ray Absorption Spectroscopy methods, Zinc analysis

Abstract

Despite its pivotal role in determining the risks and time frames associated with contaminant release, metal speciation remains a poorly understood aspect of biosolids chemistry. The work reported here used synchrotron-based spectroscopy techniques to investigate the speciation of copper and zinc in a range of Australian biosolids. High resolution element mapping of biosolids samples using micro X-ray fluorescence spectroscopy revealed considerable heterogeneity in key element associations, and a combination of both organic and inorganic copper and zinc binding environments. Linear combination fitting of K-edge X-ray absorption spectra indicated consistent differences in metal speciation between freshly produced and stockpiled biosolids. While sulfide minerals play a dominant role in metal binding in freshly dewatered biosolids, they are of lesser importance in dried biosolids that have been stockpiled. A degree of metal binding with iron oxide minerals was apparent but the results did not support the hypothesis that biosolids metals are chiefly associated with iron minerals. This work has potential implications for the long-term stability of metals in biosolids and their eventual fate following land application.

Published

2011

21. Relative tolerance of a range of Australian native plant species and lettuce to copper, zinc, cadmium, and lead.

Author

Lamb DT, Ming H, Megharaj M, and Naidu R

Subjects

Australia, Cadmium toxicity, Copper toxicity, Germination drug effects, Lead toxicity, Lactuca drug effects, Lactuca growth & development, Plant Development, Plant Roots drug effects, Plant Roots growth & development, Poaceae drug effects, Poaceae growth & development, Toxicity Tests, Trees drug effects, Trees growth & development, Zinc toxicity, Metals, Heavy toxicity, Plants drug effects, Soil Pollutants toxicity

Abstract

The tolerance of wild flora to heavy-metal exposure has received very little research. In this study, the tolerance of four native tree species, four native grass species, and lettuce to copper (Cu), zinc (Zn), cadmium (Cd), and lead (Pb) was investigated in a root-elongation study using Petri dishes. The results of these studies show a diverse range of responses to Cu, Zn, Cd, and Pb amongst the tested plant species. Toxicity among metals decreased in the following order: Cd ~ Cu > Pb > Zn. Metal concentrations resulting in a 50% reduction in growth (EC(50)) varied considerably, ranging from (microM) 30 (Dichanthium sericeum) to >2000 (Acacia spp.) for Cu; from 260 (Lactuca sativa) to 2000 (Acacia spp.) for Zn; from 27 (L. sativa) to 940 (Acacia holosericea) for Cd; and from 180 (L. sativa) to >1000 (Acacia spp.) for Pb. Sensitive native plant species identified included D. sericeum, Casuarina cunninghamiana, and Austrodanthonia caespitosa. However, L. sativa (lettuce) was also among the most sensitive to all four metals. Acacia species showed a high tolerance to metal exposure, suggesting that the Acacia genus shows potential for use in contaminated-site revegetation.

Published

2010

22. Phytotoxicity and accumulation of lead in Australian native vegetation.

Author

Lamb DT, Ming H, Megharaj M, and Naidu R

Subjects

Australia, Dose-Response Relationship, Drug, Lead chemistry, Plant Development, Plants metabolism, Solubility, Lead toxicity, Plants drug effects

Abstract

Lead (Pb) is a wide spread contaminant in the terrestrial landscape. It is highly detrimental to plant and animal life and possesses no known biologic function. Yet there is a paucity of reliable information available on the response of Australian and other plant species to Pb exposure at phytotoxic doses. In this study, the response of three Australian native grass species and two tree species to Pb in nutrient solution culture was investigated. Plants were exposed to average Pb concentrations ranging from 0.020 to 15.2 microM. The plant species included Acacia decurrens, Austrodanthonia richardsonii, Bothriochloa macra, Eucalyptus camaldulensis, and Dichanthium sericeum. Few foliar symptoms were evident in any plant species, although some discolouration in young leaves of E. camaldulensis was evident from 1 microM, and B. macra showed pronounced reddening at the highest treatments. The most tolerant plant species studied based on solution EC(50, roots) (microM) results was B. macra (7.0 +/- 0.2), followed by A. decurrens (3.9 +/- 0.2), D. sericeum (2.9 +/- 0.3), E. camaldulensis (1.1 +/- 0.3), and A. richardsonii (0.4). A hazardous concentration value (HC(5)) (n = 9) for soil solution was estimated to be 0.16 microM. A. richardsonii was highly sensitive to Pb and possessed little ability to restrict Pb translocation to its shoots. B. macra was able to tolerate high root (3924 mg kg(-1)) and shoot (743.0 mg kg(-1)) Pb concentrations. A. decurrens excluded Pb from it shoots. The high tolerance of A. decurrens to Pb and limited translocation to shoots indicates it may be useful in revegetation of Pb-contaminated soils.

Published

2010

23. Integration of traditional and innovative characterization techniques for flux-based assessment of dense non-aqueous phase liquid (DNAPL) sites.

Author

Basu NB, Suresh P, Rao C, Poyer IC, Nandy S, Mallavarapu M, Naidu R, Davis GB, Patterson BM, Annable MD, and Hatfield K

Subjects

Australia, Time Factors, Trichloroethylene chemistry, Volatile Organic Compounds analysis, Fresh Water chemistry, Trichloroethylene analysis

Abstract

Key attributes of the source zone and the expanding dissolved plume at a trichloroethene (TCE) site in Australia were evaluated using trends in groundwater monitoring data along with data from on-line volatile organic compound (VOC) samplers and passive flux meters (PFMs) deployed in selected wells. These data indicate that: (1) residual TCE source mass in the saturated zone, estimated using two innovative techniques, is small ( approximately 10 kg), which is also reflected in small source mass discharge ( approximately 3 g/day); (2) the plume is disconnecting, based on TCE concentration contours and TCE fluxes in wells along a longitudinal transect; (3) there is minimal biodegradation, based on TCE mass discharge of approximately 6 g/day at a plume control plane approximately 175 m from source, which is also consistent with aerobic geochemical conditions observed in the plume; and (4) residual TCE in the vadose zone provides episodic inputs of TCE mass to the plume during infiltration/recharge events. TCE flux data also suggest that the small residual TCE source mass is present in the low-permeability zones, thus making source treatment difficult. Our analysis, based on a synthesis of the archived data and new data, suggests that source treatment is unwarranted, and that containment of the large TCE plume (approximately 1.2 km long, approximately 0.3 km wide; 17 m deep; approximately 2000-2500 kg TCE mass) or institutional controls, along with a long-term flux monitoring program, might be necessary. The flux-based site management approach outlined in this paper provides a novel way of looking beyond the complexities of groundwater contamination in heterogeneous domains, to make intelligent and informed site decisions based on strategic measurement of the appropriate metrics.

Published

2009

24. Arsenic levels in rice grain and assessment of daily dietary intake of arsenic from rice in arsenic-contaminated regions of Bangladesh--implications to groundwater irrigation.

Author

Rahman MM, Owens G, and Naidu R

Subjects

Adult, Australia, Bangladesh, Crops, Agricultural, Environmental Monitoring, Female, Humans, India, Male, Pakistan, Public Health, Risk Assessment, Soil Pollutants analysis, Water Pollutants, Chemical analysis, Water Supply standards, Arsenic analysis, Environmental Exposure analysis, Food Contamination analysis, Oryza

Abstract

Chronic exposure to arsenic (As) causes significant human health effects, including various cancers and skin disorders. Naturally elevated concentrations of As have been detected in the groundwater of Bangladesh. Dietary intake and drinking water are the major routes of As exposure for humans. The objectives of this study were to measure As concentrations in rice grain collected from households in As-affected villages of Bangladesh where groundwater is used for agricultural irrigation and to estimate the daily intake of As consumed by the villagers from rice. The median and mean total As contents in 214 rice grain samples were 131 and 143 microg/kg, respectively, with a range of 2-557 microg/kg (dry weight, dw). Arsenic concentrations in control rice samples imported from Pakistan and India and on sale in Australian supermarkets were significantly lower (p < 0.001) than in rice from contaminated areas. Daily dietary intake of As from rice was 56.4 microg for adults (males and females) while the total daily intake of As from rice and from drinking water was 888.4 and 706.4 microg for adult males and adult females, respectively. From our study, it appears that the villagers are consuming a significant amount of As from rice and drinking water. The results suggest that the communities in the villages studied are potentially at risk of suffering from arsenic-related diseases.

Published

2009