Your search keyword '"Kerr, Philip G."' showing total 23 results

1. Novel serotonin decorated molecularly imprinted polymer nanoparticles based on biodegradable materials; A potential self-targeted delivery system for Irinotecan

Author

Ezati, Noushin, Abdouss, Majid, Rouhani, Morteza, Kerr, Philip G., and Kowsari, Elaheh

Published

2022

2. Identification of bioactive metabolites and evaluation of in vitro anti-inflammatory and in vivo antinociceptive and antiarthritic activities of endophyte fungi isolated from Elaeocarpus floribundus blume

Author

Mazumder, Kishor, Ruma, Yasmeen Nazim, Akter, Rasheda, Aktar, Asma, Hossain, Mir Monir, Shahina, Zinnat, Mazumdar, Santosh, and Kerr, Philip G.

Published

2021

3. Antidiabetic profiling, cytotoxicity and acute toxicity evaluation of aerial parts of Phragmites karka (Retz.)

Author

Mazumder, Kishor, Sumi, Tahamina Sultana, Golder, Mimi, Biswas, Biswajit, Maknoon, and Kerr, Philip G.

Published

2021

4. Functional sustainability of periphytic biofilms in organic matter and Cu2+ removal during prolonged exposure to TiO2 nanoparticles

Author

Liu, Junzhuo, Tang, Jun, Wan, Juanjuan, Wu, Chenxi, Graham, Bruce, Kerr, Philip G., and Wu, Yonghong

Published

2019

5. Comparison of selected physico-chemical properties of calcium alginate films prepared by two different methods

Author

Crossingham, Yazmin J., Kerr, Philip G., and Kennedy, Ross A.

Published

2014

6. Aquilaria spp. (agarwood) as source of health beneficial compounds: A review of traditional use, phytochemistry and pharmacology.

Author

Hashim, Yumi Zuhanis Has-Yun, Kerr, Philip G., Abbas, Phirdaous, and Mohd Salleh, Hamzah

Subjects

*CENTRAL nervous system, *DRUG design, *CHINESE medicine, *MEDLINE, *ONLINE information services, *ORGANIC compounds, *TRADITIONAL medicine, *SYSTEMATIC reviews, *PLANT extracts

Abstract

Ethnopharmacological relevance Aquilaria spp. (agarwood) has been a part of Ayurvedic and Traditional Chinese Medicine for centuries. Agarwood has also been used as a traditional medicine in Southeast Asian countries, Bangladesh and Tibet. Its common uses include the treatment of joint pain, inflammatory-related ailments, and diarrhoea, as well as a stimulant, sedative and cardioprotective agent. In this paper, we aim to provide an overview of the phytochemistry, ethnomedicinal use, pharmacological activities and safety of plant materials from Aquilaria spp. as an evidence base to further appraise its potential use as a source of health beneficial compounds. Materials and methods Literature abstracts and full text articles from journals, books, reports and electronic searches (Google Scholar, Elsevier, PubMed, Read Cube, Scopus, Springer, and Web of Science), as well as from other relevant websites, are surveyed, analysed and included in this review. Results A literature survey of agarwood plant materials showed that they contain sesquiterpenes, 2(-2-phenylethyl)-4H-chromen-4-one derivatives, genkwanins, mangiferins, iriflophenones, cucurbitacins, terpenoids and phenolic acids. The crude extracts and some of the isolated compounds exhibit anti-allergic, anti-inflammatory, anti-diabetic, anti-cancer, anti-oxidant, anti-ischemic, anti-microbial, hepatoprotective, laxative, and mosquitocidal properties and effects on the central nervous system. Agarwood plant materials are considered to be safe based on the doses tested. However, the toxicity and safety of the materials, including the smoke from agarwood incense burning, should be further investigated. Future research should be directed towards the bio-guided isolation of bioactive compounds with proper chemical characterisation and investigations of the underlying mechanisms towards drug discovery. Conclusions The traditional medicinal use of agarwood plant materials has provided clues to their pharmacological properties. Indeed, agarwood contains a plethora of bioactive compounds that now elegantly support their use in traditional medicine. As wild agarwood trees are critically endangered and vulnerable, sustainable agricultural and forestry practices are necessary for the further development and utilization of agarwood as a source of health beneficial compounds. [ABSTRACT FROM AUTHOR]

Published

2016

7. A novel biotechnology based on periphytic biofilms with N-acyl-homoserine-lactones stimulation and lanthanum loading for phosphorus recovery.

Author

Xu, Ying, Kerr, Philip G., Dolfing, Jan, Rittmann, Bruce E., and Wu, Yonghong

Subjects

*ACYL-homoserine lactones, *BIOFILMS, *LIGAND exchange reactions, *LANTHANUM, *PHOSPHORUS in water, *RARE earth metals, *BIOTECHNOLOGY, *PHOSPHORUS, *BACTERIAL communities

Abstract

[Display omitted] • La loading to periphytic biofilm was mainly based on ligand exchange reactions. • La-loading achieved rapid initial P-entrapment. • AHLs stimulated periphytic biofilm growth and formation. • AHLs-stimulation enhanced steady and efficient P-entrapment. • Enhanced EPS production stimulated by AHLs can protect cells against La exposure. This study presents an approach for developing periphytic biofilm with N-acyl-homoserine-lactones (AHLs) stimulation and lanthanum (La, a rare earth element) loading, to achieve highly efficient and stable phosphorus (P) recovery from wastewater. AHLs stimulated biofilm growth and formation, also improved stable P entrapment by enhancing extracellular polymeric substance (EPS) production and optimizing P-entrapment bacterial communities. Periphytic biofilms loading La is based on ligand exchanges, and La loading achieved initial rapid P entrapment by surface adsorption. The combination of AHLs stimulation and La loading achieved 99.0% P entrapment. Interestingly, the enhanced EPS production stimulated by AHLs protected biofilms against La. Moreover, a method for P and La separately recovery from biofilms was developed, achieving 89–96% of P and 88–93% of La recovery. This study offers a promising biotechnology to reuse La from La-rich wastewater and recover P by biofilm doped with La, which results in a win–win situation for resource sustainability. [ABSTRACT FROM AUTHOR]

Published

2022

8. Eco-restoration: Simultaneous nutrient removal from soil and water in a complex residential–cropland area

Author

Wu, Yonghong, Kerr, Philip G., Hu, Zhengyi, and Yang, Linzhang

Subjects

RESTORATION ecology, SOIL restoration, BIOREMEDIATION, LAKE restoration, EUTROPHICATION control, WASTEWATER treatment, FARM management

Abstract

An eco-restoration system to remove excess nutrients and restore the agricultural ecosystem balance was proposed and applied from August 2006 to August 2008 in a residential–cropland complex area (1.4 × 105 m2) in Kunming, western China, where the self-purifying capacity of the agricultural ecosystem had been lost. The proposed eco-restoration system examined includes three main foci: farming management, bioremediation, and wastewater treatment. The results showed that the removal efficiencies of total phosphorus (TP) and total nitrogen (TN) from the complex wastewater were 83% and 88%, respectively. The Simpson’s diversity indices of macrophytes and zoobenthos indicated that the system had increased macrophyte and zoobenthic diversity as well as improved growth conditions of the plankton habitats. The results demonstrated that the proposed eco-restoration system is a promising approach for decreasing the output of nutrients from soil, improving agricultural ecosystem health, and minimizing the downstream eutrophication risk for surface waters. [Copyright &y& Elsevier]

Published

2010

9. Removal of cyanobacterial bloom from a biopond–wetland system and the associated response of zoobenthic diversity

Author

Wu, Yonghong, Kerr, Philip G., Hu, Zhengyi, and Yang, Linzhang

Subjects

*CYANOBACTERIAL blooms, *PONDS, *WETLANDS, *EUTROPHICATION, *AQUATIC biodiversity, *AQUATIC ecology, *CHLOROPHYLL, *BENTHIC animals

Abstract

Abstract: Harmful cyanobacterial bloom in water bodies frequently occurs due to eutrophication, leading to the excessive growth of cyanobacteria which in turn may lead to a decrease in biodiversity. A biopond–wetland system to control cyanobacterial bloom and stabilize or even increase biodiversity is proposed and applied in a pond, Kunming, western China where cyanobacterial blooms frequently break out. The biopond–wetland system examined includes three main parts: filter-feeding fish, replanted pond macrophytes, and a terminal artificial wetland. When the hydraulic load of the biopond–wetland system was 500m3/d on non-rainy days, the system successfully decreased the level of chlorophyll-a (Chl-a). The declining levels of total nitrogen (TN), total phosphorus (TP) and ammonia in the water after establishing the biopond–wetland system also coincided with the disappearance of the cyanobacterial bloom. In the second summer, when the biopond–wetland system was in a relatively steady-state condition, the overall average nutrient removal efficiencies were as follows, Chl-a (83%), TN (57%), TP (70%) and ammonia (66%), while in the second winter, the overall average removal efficiencies were Chl-a (66%), TN (40%), TP (53%) and ammonia (49%). Simpson’s diversity index of zoobenthos indicated that the system increased the zoobenthic diversity and improved the growth conditions of the zoobenthos habitat. The results demonstrated that the biopond–wetland system could control cyanobacterial blooms. [Copyright &y& Elsevier]

Published

2010

10. The ‘vitamin E regeneration system’ (VERS) and an algorithm to justify antioxidant supplementation in diabetes – A hypothesis.

Author

Nwose, Ezekiel U., Jelinek, Herbert F., Richards, Ross S., and Kerr, Philip G.

Subjects

VITAMIN E, DIABETES, ANTIOXIDANTS, REGENERATION (Biology), MEDICAL research

Abstract

Summary: In studies of vitamin E effectiveness in diabetes, there are still controversies surrounding negative observational and positive experimental results. However, there is no controversy that antioxidant vitamin E is regenerated from its pro-oxidant tocopheroxyl radical by a network of interacting co-antioxidants. The network of interacting co-antioxidants has only been studied individually. The hypothesis we propose is that a vitamin E regeneration system (VERS) model based on the complex interactions of the co-antioxidants provides a rationale for vitamin E supplementation as a therapeutic adjunct in diabetes. Furthermore, the factors considered prior to the use of Vitamin E as a supplement in diabetes research and therapy, the effectiveness of vitamin E supplementation and the limitations have been identified in the literature. There is no single study of vitamin E supplementation or efficacy that has determined vitamin E levels in combination with all of the co-antioxidants that interact to regenerate oxidised vitamin E. Therefore, there is a lack of good evidence for or against vitamin E being unilaterally depleted in the antioxidant network. There is also lack of rationale for choice of co-antioxidant supplementation. In essence, the normal conditions for effective antioxidant activity of vitamin E supplementation have yet to be fully explored. We propose a coherent model of VERS, and recommend that VERS status needs to be assessed, as part of evidence-based clinical practice to determine whether vitamin E should be recommended for the diabetic patient. We also propose an algorithm, based on the antioxidant activity and confounding factors, to guide the formulation of a credible hypothesis for clinical trials in assessing the function of vitamin E and treatment outcomes. The proposed model hinges on pertinent questions that have to be addressed to avoid organising a clinical trial that has been identified as biased. [Copyright &y& Elsevier]

Published

2008

11. The effect of periphyton on seed germination and seedling growth of rice (Oryza sativa) in paddy area.

Author

Lu, Haiying, Liu, Junzhuo, Kerr, Philip G., Shao, Hongbo, and Wu, Yonghong

Subjects

*RICE seeds, *PERIPHYTON, *GERMINATION, *PADDY fields, *CROP ecology, *SEEDLINGS

Abstract

Periphyton is widely distributed in paddy fields and its interactions with paddy soil and rice growth have been reported rarely. In this study, model paddy ecosystems with different additional soil substrates were simulated under controlled conditions to investigate the effects of periphyton on rice seed germination and seedling growth. Results show that the selected soil substrates had significant effects on the metabolic activities and growth of periphyton in paddy fields. The addition of straw to soil enhances but the addition of biochar leads to attenuation of periphyton growth. The presence of periphyton in the paddy system, especially with straw in soil greatly increased the germination index of rice seed (by maximally 21%). However, the biochar treatment in the presence of periphyton was detrimental for the seed vitality with a decrease of 30%. As a result, the periphyton cover on paddy soil surface significantly inhibited the growth of rice seedling, including rice height, leaf width and biomass. To summarize, this study indicates that the presence of periphyton during seed germination period was detrimental for rice growth, but could be used to control the weed growth. Thus, this study provided insight into understanding the periphyton-plant relationships with different soil-substrates and also new approaches to controlling weeds in paddy fields by regulating the growth of periphyton. [ABSTRACT FROM AUTHOR]

Published

2017

12. A multi-level bioreactor to remove organic matter and metals, together with its associated bacterial diversity

Author

Wu, Yonghong, Hu, Zhengyi, Kerr, Philip G., and Yang, Linzhang

Subjects

*BIOREACTORS, *ORGANIC compounds removal (Sewage purification), *METALS removal (Sewage purification), *BACTERIAL diversity, *CONSTRUCTION materials, *BIOFILTRATION, *SEWAGE sludge

Abstract

Abstract: The purpose of this study was to treat complex wastewater consisting of domestic wastewater, tobacco processing and building materials washings. The proposed multi-level bioreactor consists of a biopond–biofilter, anoxic/aerobic (A/O) fluidized beds and a photoautotrophic system. The results show that when the hydraulic load of the bioreactor was 200m3/d, it successfully and simultaneously removed the organic matter and metals. When the bioreactor was in a relatively steady-state condition, the overall average organic matter and metals removal efficiencies are as follows, COD (89%), UV245 nm-matter (91%), Cu (78%), Zn (79%) and Fe (84%). The growth conditions of the native bacterial habitat were improved, which resulted from the increase of the in bacterial diversity under the rejuvenated conditions induced by the bioreactor. The results demonstrate that the multi-level bioreactor, without a sludge treatment system, can remove heterogeneous organic matter and metals from wastewater. [ABSTRACT FROM AUTHOR]

Published

2011

13. Evaluating role of immobilized periphyton in bioremediation of azo dye amaranth.

Author

Shabbir, Sadaf, Faheem, Muhammad, Ali, Naeem, Kerr, Philip G., and Wu, Yonghong

Subjects

*ANIMAL immobilization, *PERIPHYTON, *AZO dyes, *BIOREMEDIATION, *AMARANTHS, *SEWAGE purification

Abstract

The aim of this study was to evaluate the bioremediation capabilities of three kinds of periphyton (i.e. epiphyton, metaphyton and epilithon) immobilized in bioreactors to decolorize and biodegrade the sulphonated azo dye, amaranth. Results showed that periphyton dominated by phyla including Cyanobacteria , Proteobacteria and Bacteroidetes . Complete removal of dye was shown by all the biofilms periphyton (epiphyton showed highest removal efficacy) over a range of initial concentrations (50–500 mg L −1 ) within 84 h at pH 7 and 30 °C. Biodegradation of amaranth was confirmed through FTIR and HPLC and the biodegradation pathways were detected by GC–MS/MS analysis. The azo bonds in the amaranth were successfully broken by periphyton and amaranth was converted to non-toxic, aliphatic compounds including isobutene, acetyl acetate and ethyl acetate. The results showed the potential application of immobilized periphyton at industrial scale for the removal of azo dyes from wastewater containing azo dye amaranth. [ABSTRACT FROM AUTHOR]

Published

2017

14. Periphyton biofilms: A novel and natural biological system for the effective removal of sulphonated azo dye methyl orange by synergistic mechanism.

Author

Shabbir, Sadaf, Faheem, Muhammad, Ali, Naeem, Kerr, Philip G., and Wu, Yonghong

Subjects

*PERIPHYTON, *AZO dyes, *POLLUTION, *BIOTRANSFORMATION (Metabolism), *METABOLITES, *BIOREMEDIATION

Abstract

Due to their large scale use, azo dyes are adversely affecting aquatic fauna and flora as well as humans. The persistent nature of sulphonated azo dyes makes them potential ecotoxic hazards. The aim of the present study was to employ a proficient, locally available biomaterial, viz. periphyton (i.e. epiphyton, epilithon or metaphyton), for removal of the azo dye, methyl orange (MO). Results showed that the periphytic biofilms are capable of completely removing comparatively high concentrations (up to 500 mg L −1 ) of MO from wastewater. The removal of MO occurs by a synergistic mechanism involving bioadsorption and biodegradation processes. The adsorption of MO by periphyton can be described by pseudo-second order kinetics. Elovich and intraparticle diffusion models as well as Langmuir equations fit well to the MO adsorption process. FTIR analysis of MO and its metabolites demonstrated biotransformation into simpler compounds within 72 h. GC-MS/MS analysis showed the conversion of MO into simpler compounds such as phenol, ethyl acetate and acetyl acetate. The results indicated that periphyton is a promising biomaterial for the complete removal of MO from wastewater and that the treatment process has the potential for in situ removal of MO at contaminated sites. [ABSTRACT FROM AUTHOR]

Published

2017

15. Bioremediation of agricultural solid waste leachates with diverse species of Cu (II) and Cd (II) by periphyton.

Author

Yang, Jiali, Liu, Junzhuo, Wu, Chenxi, Kerr, Philip G., Wong, Po-Keung, and Wu, Yonghong

Subjects

*BIOREMEDIATION, *AGRICULTURAL wastes, *LEACHATE, *PERIPHYTON, *COPPER compounds, *CADMIUM compounds, *ETHYLENEDIAMINETETRAACETIC acid

Abstract

The aim of this work was to study the bioremediation of agricultural solid waste leachates with high-concentrations of Cu (II) and Cd (II) after washing the wastes with water and Na 2 EDTA solution (0.2 M). Results indicate that Cu (II) and Cd (II) are mainly comprised of Cu 2 (OH) 2 2+ , Cu 3 (OH) 4 2+ , CuOH + , Cu(H 2 O) 4 (OH) 2 , Cd 2+ and CdOH + in the water-washed leachates and Cu(EDTA) 2− , Cu(HEDTA) − , Cd(EDTA) 2− and Cd(HEDTA) − in the Na 2 EDTA-washed leachates. Cu (II) removal efficiency by selected native periphyton from the water- and Na 2 EDTA-washed leachates were 80.5% and 68.4% respectively, and for Cd (II) it was 57.1% and 64.6%, because the periphyton was able to maintain a stable pH of the leachates and regulate its microbial composition and carbon metabolic capability to acclimate the chemical conditions of the leachates. This study provides a new biomeasure to treat leachates with high-concentration Cu 2+ and Cd 2+ , and contribute valuable insights into the relationships between periphyton characteristics and heavy metals. [ABSTRACT FROM AUTHOR]

Published

2016

16. Enhanced periphyton biodegradation of endocrine disrupting hormones and microplastic: Intrinsic reaction mechanism, influential humic acid and microbial community structure elucidation.

Author

Shabbir, Sadaf, Faheem, Muhammad, Dar, Afzal Ahmed, Ali, Naeem, Kerr, Philip G., Yu, Zhi-Guo, Li, Yi, Frei, Sven, Albasher, Gadah, and Gilfedder, Benjamin S.

Subjects

*GAS chromatography/Mass spectrometry (GC-MS), *HUMIC acid, *MICROBIAL communities, *BIODEGRADATION, *TANDEM mass spectrometry, *GEL permeation chromatography, *BIOFILMS

Abstract

Endocrine-disrupting compounds (EDCs), as well as microplastics, have drawn global attention due to their presence in the aquatic ecosystem and persistence in wastewater treatment plants (WWTPs). In the present study, for simultaneous bio-removal of two EDCs, 17α-ethinylestradiol (EE2), bisphenol A (BPA), and a microplastic, polypropylene (PP) four kinds of periphytic biofilms were employed. Additionally, the effect of humic acid (HA) on the removal efficacy of these biofilms was evaluated. It was observed that EE2 and BPA (0.2 mg L−1 each) were completely (∼100%) removed within 36 days of treatment; and the biodegradation of EE2, BPA, and PP was significantly enhanced in the presence of HA. Biodegradation of EE2 and BPA was evaluated through Ultra-high performance liquid chromatography (UHPLC), and Gas chromatography coupled with tandem mass spectrometry (GC-MS/MS) was used to determine the mechanism of degradation. Gel permeation chromatography (GPC) and SEM had validated the biodegradation of PP (5.2–14.7%). MiSeqsequencing showed that the community structure of natural biofilm changed after the addition of HA, as well as after the addition of EDCs and PP. This change in community structure might be a key factor regarding variable biodegradation percentages. The present study revealed the potential of periphytic biofilms for the simultaneous removal of pollutants of different chemical natures, thus provides a promising new method for wastewater treatment applications. [Display omitted] • EDCs and microplastics were co-treated with immobilized periphytic biofilms. • Humic acid can substantially induce biodegradation potency of periphytic biofilms. • EDCs were completely whereas PP was partially degraded within 36 days with HA. • HA affects biodegradation potential as well as structure and abundance of biofilms. • Periphytic biofilms are a potent technology for simultaneous removal of pollutants. [ABSTRACT FROM AUTHOR]

Published

2022

17. In situ bioremediation of surface waters by periphytons.

Author

Wu, Yonghong, Xia, Lizhong, Yu, Zhiqiang, Shabbir, Sadaf, and Kerr, Philip G.

Subjects

*BIOREMEDIATION, *PERIPHYTON, *WATER purification, *ENCAPSULATION (Catalysis), *FEASIBILITY studies

Abstract

Highlights: [•] Periphyton communities are capable of removing miscellaneous contaminants. [•] Cell immobilization technology displays immense potential for periphyton formation. [•] The application of periphyton is feasible for bioremediation of surface waters. [ABSTRACT FROM AUTHOR]

Published

2014

18. Interactions between periphytic biofilms and dissolved organic matter at soil-water interface and the consequent effects on soil phosphorus fraction changes.

Author

Liu, Junzhuo, Lu, Haiying, Wu, Lirong, Kerr, Philip G., and Wu, Yonghong

Published

2021

19. Basic dye adsorption onto an agro-based waste material – Sesame hull (Sesamum indicum L.)

Author

Feng, Yanfang, Yang, Fan, Wang, Yongqian, Ma, Li, Wu, Yonghong, Kerr, Philip G., and Yang, Linzhang

Subjects

*AGRICULTURAL waste recycling, *BASIC dyes, *ADSORPTION (Chemistry), *SESAME, *BIOTECHNOLOGY, *METHYLENE blue, *ATMOSPHERIC temperature, *WASTEWATER treatment

Abstract

Abstract: The aim of this project was to establish an economical and environmentally benign biotechnology for removing methylene blue (MB) from wastewater. The adsorption process of MB onto abandoned sesame hull (Sesamum indicum L.) (SH) was investigated in a batch system. The results showed that a wide range of pH (3.54–10.50) was favorable for the adsorption of MB onto SH. The Langmuir model displayed the best fit for the isothermal data. The exothermic adsorption process fits a pseudo-second-order kinetic model. The maximum monolayer adsorption capacity (359.88mgg−1) was higher than most previously investigated low-cost bioadsorbents (e.g., peanut hull, wheat straw, etc.). This study indicated that sesame hull is a promising, unconventional, affordable and environmentally friendly bio-measure that is easily deployed for removing high levels of MB from wastewater. [Copyright &y& Elsevier]

Published

2011

20. The removal of nutrients from non-point source wastewater by a hybrid bioreactor

Author

Wu, Yonghong, Hu, Zhengyi, Yang, Linzhang, Graham, Bruce, and Kerr, Philip G.

Subjects

*BIOLOGICAL nutrient removal, *WASTEWATER treatment, *BIOTECHNOLOGY, *BIOREACTORS, *SUBURBS, *MICROORGANISM populations, *HETEROTROPHIC bacteria, *HABITATS

Abstract

Abstract: The aim of this project was to establish an economical and environmentally benign biotechnology for removing nutrients from non-point source wastewater. The proposal involves a hybrid bioreactor comprised of sequential anaerobic, anoxic and aerobic (A2/O) processes and an eco-ditch being constructed and applied in a suburban area, Kunming, south-western China, where wastewater was discharged from an industrial park and suburban communities. The results show that the hybrid bioreactor fosters heterotrophic and autotrophic microorganisms. When the hydraulic load is 200m3 per day with the running mode in 12h cycles, the removal efficiencies of the nutrients were 81% for TP, 74% for TDP, 82% for TN, 79% for NO3-N and 86% for NH4-N. The improved bacterial community structure and bacterial habitats further implied enhanced water quality and indicates that the easily-deployed, affordable and environmentally-friendly hybrid bioreactor is a promising bio-measure for removing high loadings of nutrients from non-point source wastewater. [ABSTRACT FROM AUTHOR]

Published

2011

21. Electron transport, light energy conversion and proteomic responses of periphyton in photosynthesis under exposure to AgNPs.

Author

Liu, Junzhuo, Zhang, Huijie, Yan, Liying, Kerr, Philip G., Zhang, Songhe, and Wu, Yonghong

Subjects

*ENERGY conversion, *ELECTRON transport, *PHOTOSYNTHESIS, *ALGAL communities, *CHARGE exchange, *SILVER nanoparticles, *PROTEIN expression

Abstract

• Ag+ released from AgNPs has heavier impact on photosynthesis than intact AgNPs. • Ag+ blocks electron transport and damages phycobilisome of algae in periphyton. • Energy absorption is increased to maintain electron transfer in photosynthesis. • PSII and PSI work in complement to cope with stress by intact AgNPs and Ag+. Silver nanoparticles (AgNPs) including a mix of intact nanoparticle-Ag and 'free' Ag+ pose high risks to benthic photoautotrophs, but the photosynthetic responses of benthic microbial aggregates to AgNPs still remain largely unknown. Here, periphyton and Nostoc were used to elucidate the photosynthetic responses of benthic algae community to intact nanoparticle-Ag and Ag+. During exposure, both intact nanoparticle-Ag and Ag+ imposed negative effects on photosynthesis of benthic algae, but via different pathways. Specifically, Ag+ had stronger effects on damaging the oxygen-evolving complex (OEC) and thylakoid membrane than intact nanoparticle-Ag. Ag+ also suppressed electron transfer from Q A to Q B , and impaired phycobilisome. Intact nanoparticle-Ag inhibited the expression of PsbD and PsbL in PSII, but prompted the ROS scavenging capacity. In response to the stress of AgNPs, the benthic algae increased light energy absorption to maintain the electron transport efficiency, and up-regulated PSI reaction center protein (PsaA) to compensate the degraded PSII. These results reveal how intact nanoparticle-Ag and Ag+ influence electron transport, energy conversion and protein expression in the photosynthesis of periphyton, and provide deep insights into the responses of benthic photoautotrophs to different components of AgNPs. [ABSTRACT FROM AUTHOR]

Published

2021

22. Dual benefits of long-term ecological agricultural engineering: Mitigation of nutrient losses and improvement of soil quality.

Author

Li, Hongying, Zhu, Ningyuan, Wang, Sichu, Gao, Mengning, Xia, Lizhong, Kerr, Philip G., and Wu, Yonghong

Abstract

Soil erosion of sloped farmland in the Three Gorges Reservoir area (TGRA) has led to the serious loss of nutrients, soil quality degradation and the downstream water quality being threatened. Thus, a series of ecological agricultural engineering measures was established in 2011, as a field experiment using citrus (navel orange) plants to reduce soil erosion, which was monitored from 2011 to 2018. These ecological agricultural engineering measures included three treatments: 1) citrus intercropped with white clover (WC), 2) citrus orchard land mulched with straw (SM) and 3) citrus intercropped with hemerocallis (Hemerocallis flava) contour hedgerows (CH). The conventional citrus orchard management was regarded as control (CK). The results show, that compared with CK, nutrient loss from the experiments were reduced by the following amounts: for nitrogen - WC (35.5%), SM (44.0%) and CH (52.0%); for phosphorus - WC (40.0%), SM (51.7%) and CH (58.3%). Therefore, the ecological agricultural engineering measures effectively mitigate the nutrient loss loads of the navel orange citrus gardens. The citrus intercropped with the hemerocallis hedgerows is the most effective measure for the control of nutrient loss. After 8 years of experiment, the soil quality represented by average soil quality index (SQI) in these three treatments, are significantly higher than that of the CK (and the beginning of the experiment). This is because the application of these measures prevented the loss of: soil organic matter, bulk density and total phosphorus. It is predicted that the soil qualities of these three treatments will remain in the range of soil grade II and I for the next 5 years but the soil quality of CK will decrease to soil quality grade II and III. These results show that ecological agricultural engineering measures are a long-term promising and feasible method to reduce soil erosion and enhance soil quality. Unlabelled Image • Long-term benefits of applying ecological agricultural measures were examined. • Soil nutrient losses and properties changes in sloping farmland were explored. • The SQI was used to measure the impact of soil indexes changes on soil quality. • The future changes in soil quality of different ecological measures were predicted. [ABSTRACT FROM AUTHOR]

Published

2020

23. Periphytic biofilm: An innovative approach for biodegradation of microplastics.

Author

Shabbir, Sadaf, Faheem, Muhammad, Ali, Naeem, Kerr, Philip G., Wang, Long-Fei, Kuppusamy, Sathishkumar, and Li, Yi

Abstract

Microplastics (MPs) have been gaining the attention of environmental researchers since the 1960s anecdotal reports of plastic entanglement and ingestion by marine creatures. Due to their increasing accretion in aquatic environments, as well as resistance towards degradation, marine litter research has focused on microplastics more recently. In the present study, a relatively new method of biodegradation was implemented for the biodegradation of three structurally different MPs i.e. polypropylene (PP), polyethylene (PE) and polyethylene terephthalate (PET). Periphytic biofilm was used for this purpose in various backgrounds of carbon sources (glucose, peptone, and glucose and peptone). Biodegradation of MPs was estimated in terms of weight loss. It was observed that the addition of glucose enhanced the biodegradation of MPs by periphyton biofilm for all MPs (from 9.52%–18.02%, 5.95%–14.02% and 13.24–19.72% for PP, PE and PET respectively) after 60 days compared to natural biofilm alone. To the contrary, peptone, and glucose and peptone together, were inhibitory. Biodegradation was further confirmed by morphological changes observed using SEM, FTIR spectra and GPC lent further support to the results whereby new peaks appeared along with reduction in old peaks and decrease in peak intensities. MiSeq sequencing shows that Deinococcus-thermus > Proteobacteria > Cyanobacteria are the dominant phyla in natural biofilms, and their relative abundances increase after the addition of glucose. However, the abundances shifted to Deinococcus-thermus > Cyanobacteria > Firmicutes > Bacteroidetes , when the biofilms were treated with either peptone alone, or with glucose and peptone together. Therefore, the change in biodegradation capability might also be due to the change in the microbial community structures after addition of the C-sources. These experiments provide an innovative approach towards effective biodegradation of MPs using a relatively new environment-friendly method. Unlabelled Image • Immobilized periphytic biofilms were implemented for the biodegradation of MPs. • Glucose proved to be the most effective C-source for effectual MPs' biodegradation. • SEM and FTIR confirm biodegradation showing morphological and structural changes. • MiSeq sequencing shows that C-sources affects microbial community structure. • Periphytic biofilms are eco-friendly entities effectual for MP biodegradation. [ABSTRACT FROM AUTHOR]

Published

2020