Your search keyword '"Agathokleous E"' showing total 228 results

1. Machine learning model to predict vehicle electrification impacts on urban air quality and related human health effects

Author

Calatayud, V., Diéguez, J.J., Agathokleous, E., and Sicard, P.

Published

2023

2. Low doses of toxicants can enhance algae potential as biodiesel and biomass feedstocks

Author

Agathokleous, E., Guo, J., and Peñuelas, J.

Published

2022

3. The chemoprotective hormetic effects of rosmarinic acid

Author

Calabrese Edward J., Pressman Peter, Hayes A. Wallace, Dhawan Gaurav, Kapoor Rachna, Agathokleous Evgenios, Baldwin Linda A., and Calabrese Vittorio

Subjects

hormesis, dose–response, u-shaped dose–response, biphasic dose response, neuroprotection, Medicine

Abstract

Rosmarinic acid is a polyphenol found in numerous fruits and vegetables, consumed in supplement form, and tested in numerous clinical trials for therapeutic applications due to its putative chemopreventive properties. Rosmarinic acid has been extensively studied at the cellular, whole animal, and molecular mechanism levels, presenting a complex array of multi-system biological effects. Rosmarinic acid-induced hormetic dose responses are widespread, occurring in numerous biological models and cell types for a broad range of endpoints. Consequently, this article provides the first assessment of rosmarinic acid-induced hormetic concentration/dose responses, their quantitative features, mechanistic foundations, extrapolative strengths/limitations, and their biomedical, clinical, and public health implications.

Published

2024

4. Forest expansion dominates China's land carbon sink since 1980

Author

Yu, Z, Ciais, P, Piao, S, Houghton, RA, Lu, C, Tian, H, Agathokleous, E, Kattel, GR, Sitch, S, Goll, D, Yue, X, Walker, A, Friedlingstein, P, Jain, AK, Liu, S, Zhou, G, Yu, Z, Ciais, P, Piao, S, Houghton, RA, Lu, C, Tian, H, Agathokleous, E, Kattel, GR, Sitch, S, Goll, D, Yue, X, Walker, A, Friedlingstein, P, Jain, AK, Liu, S, and Zhou, G

Abstract

Carbon budget accounting relies heavily on Food and Agriculture Organization land-use data reported by governments. Here we develop a new land-use and cover-change database for China, finding that differing historical survey methods biased China's reported data causing large errors in Food and Agriculture Organization databases. Land ecosystem model simulations driven with the new data reveal a strong carbon sink of 8.9 ± 0.8 Pg carbon from 1980 to 2019 in China, which was not captured in Food and Agriculture Organization data-based estimations due to biased land-use and cover-change signals. The land-use and cover-change in China, characterized by a rapid forest expansion from 1980 to 2019, contributed to nearly 44% of the national terrestrial carbon sink. In contrast, climate changes (22.3%), increasing nitrogen deposition (12.9%), and rising carbon dioxide (8.1%) are less important contributors. This indicates that previous studies have greatly underestimated the impact of land-use and cover-change on the terrestrial carbon balance of China. This study underlines the importance of reliable land-use and cover-change databases in global carbon budget accounting.

Published

2022

5. Rethinking Subthreshold Effects in Regulatory Chemical Risk Assessments

Author

Agathokleous, E., Barceló, D., Aschner, M., Azevedo, R. A., Bhattacharya, Prosun, Costantini, D., Cutler, G. C., De Marco, A., Docea, A. O., Dórea, J. G., Duke, S. O., Efferth, T., Fatta-Kassinos, D., Fotopoulos, V., Ginebreda, A., Guedes, R. N. C., Hayes, A. W., Iavicoli, I., Kalantzi, O. -I, Koike, T., Kouretas, D., Kumar, M., Manautou, J. E., Moore, M. N., Paoletti, E., Peñuelas, J., Picó, Y., Reiter, R. J., Rezaee, R., Rinklebe, J., Rocha-Santos, T., Sicard, P., Sonne, C., Teaf, C., Tsatsakis, A., Vardavas, A. I., Wang, W., Zeng, E. Y., Calabrese, E. J., Agathokleous, E., Barceló, D., Aschner, M., Azevedo, R. A., Bhattacharya, Prosun, Costantini, D., Cutler, G. C., De Marco, A., Docea, A. O., Dórea, J. G., Duke, S. O., Efferth, T., Fatta-Kassinos, D., Fotopoulos, V., Ginebreda, A., Guedes, R. N. C., Hayes, A. W., Iavicoli, I., Kalantzi, O. -I, Koike, T., Kouretas, D., Kumar, M., Manautou, J. E., Moore, M. N., Paoletti, E., Peñuelas, J., Picó, Y., Reiter, R. J., Rezaee, R., Rinklebe, J., Rocha-Santos, T., Sicard, P., Sonne, C., Teaf, C., Tsatsakis, A., Vardavas, A. I., Wang, W., Zeng, E. Y., and Calabrese, E. J.

Abstract

QC 20230515

Published

2022

6. Setting-up an Integrated Quality Assurance Protocol for Hematology Analyzers and Flow Cytometry Systems: AP161

Author

Agathokleous, E, Paterakis, G S, and Spyropoulos, B

Published

2009

7. Predicting the effect of ozone on vegetation via linear non-threshold (LNT), threshold and hormetic dose-response models

Author

Agathokleous E., Belz R.G., Calatayud V., De Marco A., Hoshika Y., Kitao M., Saitanis C.J., Sicard P., Paoletti E., Calabrese, E.J, and De Marco, A.

Subjects

Environmental hormesi, Environmental Engineering, 010504 meteorology & atmospheric sciences, Preconditioning, 010501 environmental sciences, 01 natural sciences, Models, Biological, LNT, Surface ozone, Hormesis, Ozone, Econometrics, Environmental Chemistry, Waste Management and Disposal, 0105 earth and related environmental sciences, Risk assessment, Stressor, Low dose, Adaptive response, Plants, Pollution, Dose-response, Nonlinear Dynamics, Environmental hormesis, Environmental science

Abstract

The nature of the dose-response relationship in the low dose zone and how this concept may be used by regulatory agencies for science-based policy guidance and risk assessment practices are addressed here by using the effects of surface ozone (O3) on plants as a key example for dynamic ecosystems sustainability. This paper evaluates the current use of the linear non-threshold (LNT) dose-response model for O3. The LNT model has been typically applied in limited field studies which measured damage from high exposures, and used to estimate responses to lower concentrations. This risk assessment strategy ignores the possibility of biological acclimation to low doses of stressor agents. The upregulation of adaptive responses by low O3 concentrations typically yields pleiotropic responses, with some induced endpoints displaying hormetic-like biphasic dose-response relationships. Such observations recognize the need for risk assessment flexibility depending upon the endpoints measured, background responses, as well as possible dose-time compensatory responses. Regulatory modeling strategies would be significantly improved by the adoption of the hormetic dose response as a formal/routine risk assessment option based on its substantial support within the literature, capacity to describe the entire dose-response continuum, documented explanatory dose-dependent mechanisms, and flexibility to default to a threshold feature when background responses preclude application of biphasic dose responses. Capsule: The processes of ozone hazard and risk assessment can be enhanced by incorporating hormesis into their principles and practices. © 2018 Elsevier B.V.

Published

2019

8. Commentary: EPA's proposed expansion of dose-response analysis is a positive step towards improving its ecological risk assessment

Author

Agathokleous E., Anav A., Araminiene V., De Marco A., Domingos M., Kitao M., Koike T., Manning W.J., Paoletti E., Saitanis C.J., Sicard P., Vitale M., Wang W., and Calabrese E.J.

Subjects

010504 meteorology & atmospheric sciences, Ecological health, Computer science, Health, Toxicology and Mutagenesis, media_common.quotation_subject, Context (language use), 010501 environmental sciences, dose-response, hormesis, non-linear response, regulation, risk assessment, dose-response relationship, drug, ecology, humans, nonlinear dynamics, United States, United States environmental protection agency, government regulation, toxicology, pollution, health, toxicology and mutagenesis, 01 natural sciences, Hormesis, Agency (sociology), Humans, Regulatory science, Quality (business), United States Environmental Protection Agency, 0105 earth and related environmental sciences, media_common, Risk assessment, Dose-Response Relationship, Drug, Ecology, Stressor, General Medicine, Non-linear response, Dose-response, Risk analysis (engineering), Nonlinear Dynamics, Transparency (graphic), Government Regulation, Regulation

Abstract

The United States Environmental Protection Agency (US EPA) has recently proposed changes to strengthen the transparency of its pivotal regulatory science policy and procedures. In this context, the US EPA aims to enhance the transparency of dose-response data and models, proposing to consider for the first time non-linear biphasic dose-response models. While the proposed changes have the potential to lead to markedly improved ecological risk assessment compared to past and current approaches, we believe there remain open issues for improving the quality of ecological risk assessment, such as the consideration of adaptive, dynamic and interactive effects. Improved risk assessment including adaptive and dynamic non-linear models (beyond classic threshold models) can enhance the quality of regulatory decisions and the protection of ecological health. We suggest that other countries consider adopting a similar scientific-regulatory posture with respect to dose-response modeling via the inclusion of non-linear biphasic models, that incorporate the dynamic potential of biological systems to adapt (i.e., enhancing positive biological endpoints) or maladapt to low levels of stressor agents.

Published

2019

9. Growth and photosynthetic response of two larches exposed to O3 mixing ratios ranging from preindustrial to near future

Author

Sugai, T., primary, Kam, D. G., additional, Agathokleous, E., additional, Watanabe, M., additional, Kita, K., additional, and Koike, T., additional

Published

2018

10. Growth and photosynthetic response of two larches exposed to O3 mixing ratios ranging from preindustrial to near future.

Author

Sugai, T., Kam, D.-G., Agathokleous, E., Watanabe, M., Kita, K., and Koike, T.

Subjects

LARCHES, PHOTOSYNTHESIS, HORMESIS, SEEDLINGS, PLANT productivity

Abstract

In this study, we questioned whether ground-level ozone (O3) induces hormesis in Japanese larch (Larix kaempferi) and its hybrid F1 (L. gmelinii var. japonica × L. kaempferi). In order to answer the question, we exposed seedlings of both taxa to four O3 treatments [ranging from ≈10 to 60 nmol(O3) mol-1] in open-top chambers for two consecutive growing seasons. We found a hormetic response in maximum photosynthetic rate (PNmax) at 1700 μmol(CO2) mol-1 and maximum rates of carboxylation (Vcmax) and electron transport (Jmax) in both larches. Stimulation of PNmax, Vcmax, and Jmax did not lead to suppressed plant productivity in Japanese larch, which followed a stress-tolerant strategy, but it did lead to suppressed plant productivity in hybrid larch which followed a competitive strategy. These findings are the first to suggest that stimulation of physiological functions by low O3 exposures may have negative consequences for larch reproduction. [ABSTRACT FROM AUTHOR]

Published

2018

11. The relevance of hormesis at higher levels of biological organization: Hormesis in microorganisms

Author

Evgenios Agathokleous, Qi Wang, Ivo Iavicoli, Edward J. Calabrese, Agathokleous, E., Wang, Q., Iavicoli, I., and Calabrese, E. J.

Subjects

Ecological health, Dose–response relationship, Toxicology, Environmental pollution, Stress effects, Hormetic response

Abstract

Documented biphasic dose-responses date some 150 years back; however, massive evaluations of the occurrence of pollutant-induced hormesis, its quantitative characteristics, and the underlying mechanisms have been performed only in the recent years. One of the reasons why hormesis is not included in the ecological risk assessment may be its poorly explored relevance to levels of biological organization beyond the individual. Here, we summarize the highly reproducible occurrence of hormesis induced by various individual and combined chemicals in microorganisms, the hormetic response of bioluminescence, and the hormesis-based drug resistance. We also summarize key underlying mechanisms and discuss the relevance of hormesis in microorganisms-regulated organismic interactions, biological communication, and communities of microorganisms. Our exposition indicates the need for enhanced studies directed to reveal the implications of hormesis to levels of biological organization beyond the individual and that hormesis is considered in the ecological risk assessment.

Published

2022

12. On the atmospheric ozone monitoring methodologies

Author

Evgenios Agathokleous, Zhaozhong Feng, Costas J. Saitanis, Pierre Sicard, Elena Paoletti, Alessandra De Marco, Saitanis, C. J., Sicard, P., De Marco, A., Feng, Z., Paoletti, E., and Agathokleous, E.

Subjects

Chemiluminescence, Ozone, Health, Toxicology and Mutagenesis, 0208 environmental biotechnology, 02 engineering and technology, Ozonesondes, 010501 environmental sciences, 01 natural sciences, Troposphere, Atmosphere, chemistry.chemical_compound, Environmental Chemistry, Molecular instability, Process engineering, Stratosphere, Rapid response, 0105 earth and related environmental sciences, business.industry, Public Health, Environmental and Occupational Health, Biota, Remote sensing, 020801 environmental engineering, chemistry, Passive samplers, Ultraviolet photometry, Environmental science, business, Indigo colorimetric, Atmospheric ozone

Abstract

Ozone (O3) is a natural component of the atmosphere. It occurs in the stratosphere, where it protects biota against ultraviolet radiation, but also in the lower troposphere, where it can directly harm biota. Because of its (i) high toxicological potential for biota, (ii) high reactivity and molecular instability, and (iii) difficult differentiation from other reactive oxygen species, O3 challenges scientists in a continuing effort to develop methods for its monitoring. We present here the operation principles of the most used techniques, along with some new technological developments for atmospheric O3 monitoring, with emphasis upon near surface. Huge amounts of scientific data have been produced thanks to progresses in O3 monitoring technologies. However, it remains a challenge to further develop reliable methods with rapid response and high sensitivity to ambient O3, which will also be free from the disadvantages of the current technologies.

Published

2020

13. Disinfectant-induced hormesis: An unknown environmental threat of the application of disinfectants to prevent SARS-CoV-2 infection during the COVID-19 pandemic?

Author

Edward J. Calabrese, Evgenios Agathokleous, Damià Barceló, Aristidis Tsatsakis, Ivo Iavicoli, Agathokleous, E., Barcelo, D., Iavicoli, I., Tsatsakis, A., and Calabrese, E. J.

Subjects

Coronavirus disease 2019 (COVID-19), Dose-response relationship, Health, Toxicology and Mutagenesis, Disinfectant, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Short Communication, Coronaviru, Hormesi, Environmental pollution, Drug resistance, Biology, Toxicology, Microbiology, Hormesis, Pandemic, Animals, Humans, Disinfectants application, Pandemics, Animal, SARS-CoV-2, COVID-19, General Medicine, Pathogenicity, Pollution, Coronavirus, Disinfection, Human, Disinfectants

Abstract

Massive additional quantities of disinfectants have been applied during the COVID-19 pandemic as infection preventive and control measures. While the application of disinfectants plays a key role in preventing the spread of SARS-CoV-2 infection, the effects of disinfectants applied during the ongoing pandemic on non-target organisms remain unknown. Here we collated evidence from multiple studies showing that chemicals used for major disinfectant products can induce hormesis in various organisms, such as plants, animal cells, and microorganisms, when applied singly or in mixtures, suggesting potential ecological risks at sub-threshold doses that are normally considered safe. Among other effects, sub-threshold doses of disinfectant chemicals can enhance the proliferation and pathogenicity of pathogenic microbes, enhancing the development and spread of drug resistance. We opine that hormesis should be considered when evaluating the effects and risks of such disinfectants, especially since the linear-no-threshold (LNT) and threshold dose-response models cannot identify or predict their effects., This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors. E.A. acknowledges multi-year support from The Startup Foundation for Introducing Talent of Nanjing University of Information Science & Technology (NUIST), Nanjing, China (Grant No. 003080). E.J.C. acknowledges longtime support from the US Air Force (Grant No. AFOSR FA9550-13-1-0047) and ExxonMobil Foundation (Grant No. S18200000000256). The views and conclusions contained herein are those of the authors and should not be interpreted as necessarily representing policies or endorsement, either expressed or implied. Sponsors had no involvement in study design, collection, analysis, interpretation, writing and decision to and where to submit for publication consideration.

Published

2022

14. Rethinking subthreshold effects in regulatory chemical risk assessments

Author

Evgenios Agathokleous, Damià Barceló, Michael Aschner, Ricardo Antunes Azevedo, Prosun Bhattacharya, David Costantini, G. Christopher Cutler, Alessandra De Marco, Anca Oana Docea, José G. Dórea, Stephen O. Duke, Thomas Efferth, Despo Fatta-Kassinos, Vasileios Fotopoulos, Antonio Ginebreda, Raul Narciso C. Guedes, A. Wallace Hayes, Ivo Iavicoli, Olga-Ioanna Kalantzi, Takayoshi Koike, Demetrios Kouretas, Manish Kumar, José E. Manautou, Michael N. Moore, Elena Paoletti, Josep Peñuelas, Yolanda Picó, Russel J. Reiter, Ramin Rezaee, Jörg Rinklebe, Teresa Rocha-Santos, Pierre Sicard, Christian Sonne, Christopher Teaf, Aristidis Tsatsakis, Alexander I. Vardavas, Wenjie Wang, Eddy Y. Zeng, Edward J. Calabrese, Agathokleous, E., Barcelo, D., Aschner, M., Azevedo, R. A., Bhattacharya, P., Costantini, D., Cutler, G. C., De Marco, A., Docea, A. O., Dorea, J. G., Duke, S. O., Efferth, T., Fatta-Kassinos, D., Fotopoulos, V., Ginebreda, A., Guedes, R. N. C., Hayes, A. W., Iavicoli, I., Kalantzi, O. -I., Koike, T., Kouretas, D., Kumar, M., Manautou, J. E., Moore, M. N., Paoletti, E., Penuelas, J., Pico, Y., Reiter, R. J., Rezaee, R., Rinklebe, J., Rocha-Santos, T., Sicard, P., Sonne, C., Teaf, C., Tsatsakis, A., Vardavas, A. I., Wang, W., Zeng, E. Y., and Calabrese, E. J.

Subjects

Dose-Response Relationship, Drug, Chemical Risk Assessment, Chemical Risk Assessments, hormesis, ESTRESSE, Environmental Chemistry, cancer, General Chemistry, Earth and Related Environmental Sciences, Natural Sciences, Risk Assessment

Abstract

A great number of dose–response studies indicate that hormesis is a common phenomenon, occurring in numerous organisms exposed to singular or combined environmental stressors, such as pharmaceuticals, heavy metals, micro/nanoplastics, organic flame retardants, pesticides, and rare earths. (1−6) While biological responses to low exposure levels are often beneficial, exposure to doses below the no-observed-adverse-effect-level (NOAEL; hereafter subthreshold doses) does not always translate to beneficial responses. (2,4) For example, subthreshold contaminant doses can enhance the virulence of phytopathogenic microbes and promote the resistance of crop pests with significant implications for crop production. (2,7,8) Subthreshold contaminant exposures can also stimulate infectious animal/human pathogens and promote their resistance to antibiotics and other drugs, threatening long-term sustainability. Importantly, the hormetic function of common pathways that regulate cancer progress indicate that current regulatory standards may not protect adequately against cancer risks. (9−11), We are grateful to Dr. Patrick H. Brown, Distinguished Professor of Plant Science at the University of California, Davis, U.S.A., and Dr. Adrian Covaci, Professor of Environmental Toxicology and Chemistry at the University of Antwerp, Belgium, for comments and suggestions on an early draft of the paper. This study did not receive a specific grant from funding agencies in the public, commercial, or not-for-profit sectors. E.A. acknowledges support from the National Natural Science Foundation of China (No. 4210070867), The Startup Foundation for Introducing Talent of Nanjing University of Information Science & Technology (NUIST), Nanjing, China (No. 003080), and the Jiangsu Distinguished Professor program of the People’s Government of Jiangsu Province. E.J.C. acknowledges longtime support from the U.S. Air Force (AFOSR FA9550-13-1-0047) and ExxonMobil Foundation (S18200000000256). The sponsors were not involved in the study design; the collection, analysis or interpretation of the data; the preparation of the manuscript or the decision where to submit the manuscript for publication. All authors hold senior editorial positions in various scientific journals. The views presented herein are those of the authors and do not represent views of journals’ editorial board as a unit, journals’ editorial office, journals themselves or their publishers, authors’ institutions, or scientific societies where authors hold senior positions.

Published

2022

15. Micro/nanoplastics effects on organisms: A review focusing on 'dose'

Author

Edward J. Calabrese, Ivo Iavicoli, Evgenios Agathokleous, Damià Barceló, Agathokleous, E., Iavicoli, I., Barcelo, D., and Calabrese, E. J.

Subjects

Microplastics, Aquatic Organisms, Environmental Engineering, Dose-response relationship, Health, Toxicology and Mutagenesis, Hormesi, 0211 other engineering and technologies, Context (language use), 02 engineering and technology, 010501 environmental sciences, Biology, Plastic, 01 natural sciences, Hormesis, Environmental health, High doses, Environmental Chemistry, Waste Management and Disposal, Binary chemical mixture, Environmental Pollutant, 0105 earth and related environmental sciences, Risk assessment, 021110 strategic, defence & security studies, Aquatic Organism, Low dose, Microplastic, Pollution, Environmental Pollutants, Plastics, Binary chemical mixtures, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Microplastics have become predominant contaminants, attracting much political and scientific attention. Despite the massively-increasing research on microplastics effects on organisms, the debate of whether environmental concentrations pose hazard and risk continues. This study critically reviews published literatures of microplastics effects on organisms within the context of "dose". It provides substantial evidence of the common occurrence of threshold and hormesis dose responses of numerous aquatic and terrestrial organisms to microplastics. This finding along with accumulated evidence indicating the capacity of organisms for recovery suggests that the linear-no-threshold model is biologically irrelevant and should not serve as a default model for assessing the microplastics risks. The published literature does not provide sufficient evidence supporting the general conclusion that environmental doses of microplastics cause adverse effects on individual organisms. Instead, doses that are smaller than the dose of toxicological threshold and more likely to occur in the environment may even induce positive effects, although the ecological implications of these responses remain unknown. This study also shows that low doses of microplastics can reduce whereas high doses can increase the negative effects of other pollutants. The mechanisms explaining these findings are discussed, providing a novel perspective for evaluating the risks of microplastics in the environment., This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors. E.A. acknowledges multi-year support from The Startup Foundation for Introducing Talent of Nanjing University of Information Science & Technology (NUIST), Nanjing, China (No. 003080 to E.A.). E.J.C. acknowledges longtime support from the US Air Force (AFOSR FA9550-13-1-0047) and ExxonMobil Foundation (S18200000000256). The sponsors were not involved in the study design; the collection, analysis or interpretation of the data; the preparation of the manuscript or the decision where to submit the manuscript for publication.

Published

2021

16. Ecological risks in a ‘plastic’ world: A threat to biological diversity?

Author

Edward J. Calabrese, Ivo Iavicoli, Evgenios Agathokleous, Damià Barceló, Agathokleous, E., Iavicoli, I., Barcelo, D., Calabrese, E. J., Barceló, Damià [0000-0002-8873-0491], and Barceló, Damià

Subjects

Biogeochemical cycle, Microplastics, Environmental Engineering, Health, Toxicology and Mutagenesis, 0211 other engineering and technologies, Biodiversity, 02 engineering and technology, 010501 environmental sciences, Biology, 01 natural sciences, Soil, Abundance (ecology), Environmental Chemistry, Animals, Ecosystem, Taxonomic rank, Volatile organic compounds, Waste Management and Disposal, Soil Microbiology, 0105 earth and related environmental sciences, Risk assessment, 021110 strategic, defence & security studies, Ecology, Microbiota, Ecological effects, Microplastic, Pollution, Biological diversity, Sustainability, Nanoplastic, Alpha diversity, Nanoplastics, Plastics, Ecological effect

Abstract

Microplastics pollution is predicted to increase in the coming decades, raising concerns about its effects on living organisms. Although the effects of microplastics on individual organisms have been extensively studied, the effects on communities, biological diversity, and ecosystems remain underexplored. This paper reviews the published literature concerning how microplastics affect communities, biological diversity, and ecosystem processes. Microplastics increase the abundance of some taxa but decrease the abundance of some other taxa, indicating trade-offs among taxa and altered microbial community composition in both the natural environment and animals’ gut. The alteration of community composition by microplastics is highly conserved across taxonomic ranks, while the alpha diversity of microbiota is often reduced or increased, depending on the microplastics dose and environmental conditions, suggesting potential threats to biodiversity. Biogeochemical cycles, greenhouse gas fluxes, and atmospheric chemistry, can also be altered by microplastics pollution. These findings suggest that microplastics may impact the U.N. Sustainability Development Goals (SDGs) to improve atmospheric, soil, and water quality and sustaining biodiversity., E.A. acknowledges support from The Startup Foundation for Introducing Talent of Nanjing University of Information Science & Technology (NUIST), Nanjing, China (No. 003080). E.J.C. acknowledges longtime support from the US Air Force (AFOSR FA9550-13-1-0047) and ExxonMobil Foundation (S18200000000256). The sponsors were not involved in the study design; the collection, analysis or interpretation of the data; the preparation of the manuscript or the decision where to submit the manuscript for publication.

Published

2021

17. Ozone affects plant, insect, and soil microbial communities : a threat to terrestrial ecosystems and biodiversity

Author

Xiangyang Yuan, Zhaozhong Feng, Marcello Vitale, Qi Wang, Elena Paoletti, Vicent Calatayud, Alessandra De Marco, Felicity Hayes, Costas J. Saitanis, David A. Wardle, Josep Peñuelas, Pierre Sicard, Marisa Domingos, Harry Harmens, Zhengzhen Li, James D. Blande, Stavros D. Veresoglou, Valda Araminiene, Elina Oksanen, Evgenios Agathokleous, Agathokleous, E., Feng, Z., Oksanen, E., Sicard, P., Wang, Q., Saitanis, C. J., Araminiene, V., Blande, J. D., Hayes, F., Calatayud, V., Domingos, M., Veresoglou, S. D., Penuelas, J., Wardle, D. A., de Marco, A., Li, Z., Harmens, H., Yuan, X., Vitale, M., Paoletti, E., and Asian School of the Environment

Subjects

Insecta, 010504 meteorology & atmospheric sciences, Ground Level Ozone, Environmental Studies, Biodiversity, atmospheric carbon-dioxide, 010501 environmental sciences, aspen populus-tremuloides, 01 natural sciences, biotic interactions, chemistry.chemical_compound, Soil, Soil Microbiology, Research Articles, 2. Zero hunger, Multidisciplinary, Ecology, plant-soil feddbacks, Microbiota, SciAdv r-articles, food and beverages, Plant litter, Plants, Environmental engineering [Engineering], pendula roth clones, ground-level ozone, Terrestrial ecosystem, ozone, Research Article, Nutrient cycle, Ecology and Environment, open-top chambers, Ozone, No Keywords, Animals, Tropospheric ozone, Ecosystem, 0105 earth and related environmental sciences, Bacteria, fungi, Plant community, visible foliar injury, 15. Life on land, volatile organic-compounds, chemistry, 13. Climate action, elevated tropospheric ozone, Environmental science, Alpha diversity, Ethiopia

Abstract

Elevated levels of ground-level ozone threaten terrestrial ecosystems and biodiversity., Elevated tropospheric ozone concentrations induce adverse effects in plants. We reviewed how ozone affects (i) the composition and diversity of plant communities by affecting key physiological traits; (ii) foliar chemistry and the emission of volatiles, thereby affecting plant-plant competition, plant-insect interactions, and the composition of insect communities; and (iii) plant-soil-microbe interactions and the composition of soil communities by disrupting plant litterfall and altering root exudation, soil enzymatic activities, decomposition, and nutrient cycling. The community composition of soil microbes is consequently changed, and alpha diversity is often reduced. The effects depend on the environment and vary across space and time. We suggest that Atlantic islands in the Northern Hemisphere, the Mediterranean Basin, equatorial Africa, Ethiopia, the Indian coastline, the Himalayan region, southern Asia, and Japan have high endemic richness at high ozone risk by 2100.

Published

2020

18. Ozone biomonitoring: A versatile tool for science, education and regulation

Author

Alessandra De Marco, Evgenios Agathokleous, Pierre Sicard, Zhaozhong Feng, Valda Araminiene, Elena Paoletti, Costas J. Saitanis, Marisa Domingos, Agathokleous, E., Saitanis, C. J., Feng, Z., De Marco, A., Araminiene, V., Domingos, M., Sicard, P., and Paoletti, E.

Subjects

Health, Toxicology and Mutagenesis, 0208 environmental biotechnology, Public Health, Environmental and Occupational Health, Air pollution, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Science education, 020801 environmental engineering, Environmental issue, Human health, Hormesis, Ozone, Priming, Biomonitoring, Citizen science, Bioindicators, Environmental Chemistry, Business, Curriculum, Environmental planning, 0105 earth and related environmental sciences

Abstract

Ground-level ozone (O3) pollution can adversely affect human health and vegetation, thus being an important environmental issue nowadays. Ozone biological monitoring (biomonitoring) is a method of O3 monitoring by observing quantitative changes in living organisms physically present in a specific environment. Here, we provide a concise view of the field of O3 biomonitoring, along with recent advances that are expected to advance this field in the future. We also recommend that O3 biomonitoring is included in citizen science initiatives as well as in worldwide curricula of educational institutions. Policy-makers and the general public may not understand biomonitoring data; hence, a major challenge is how to communicate the information to the audience in a way that permits the best comprehension.

Published

2020

19. Nano-pesticides: A great challenge for biodiversity? The need for a broader perspective

Author

Zhaozhong Feng, Edward J. Calabrese, Ivo Iavicoli, Evgenios Agathokleous, Agathokleous, E., Feng, Z., Iavicoli, I., and Calabrese, E. J.

Subjects

Nanopesticides, Dose-response relationship, business.industry, Hormesi, Biomedical Engineering, Biodiversity, Pharmaceutical Science, Bioengineering, 02 engineering and technology, Pesticide, 010402 general chemistry, 021001 nanoscience & nanotechnology, Nanomaterial, 01 natural sciences, 0104 chemical sciences, Agriculture, General Materials Science, Business, 0210 nano-technology, Ecological risk assessment, Environmental planning, Biotechnology

Abstract

The need to protect plants against environmental challenges, abiotic and biotic, leads to the application of nanomaterials and pesticides in the environment. Recently, nanopesticides have been developed to replace classic pesticides. Their wide application in the agricultural practice leads to deposition of nanomaterials (and potential residuals) in the natural environment. The use of nanopesticides is a great challenge for biodiversity; however, not as originally envisioned. We discuss how nanopesticides may pose risks for biodiversity at far lower concentrations/doses than currently thought.

Published

2020

20. Hormetic dose responses induced by antibiotics in bacteria: A phantom menace to be thoroughly evaluated to address the environmental risk and tackle the antibiotic resistance phenomenon

Author

Mauro Fedele, Carolina Santocono, Edward J. Calabrese, Francesco Flaviano Russo, Evgenios Agathokleous, Ivo Iavicoli, Luca Fontana, Ilaria Vetrani, Iavicoli, I, Fontana, L, Agathokleous, E, Santocono, C, Russo, F, Vetrani, I, Fedele, M, and Calabrese, Ej

Subjects

Hormesis, Subinhibitory concentrations, Antimicrobial resistance, Plasmid conjugative transfer, Mixture toxicology, Environmental Engineering, Bacteria, biology, medicine.drug_class, Mechanism (biology), Antibiotics, Biofilm, Hormesis, Drug Resistance, Microbial, biology.organism_classification, Pollution, Anti-Bacterial Agents, Plasmid, Antibiotic resistance, Environmental risk, Immunology, medicine, Humans, Environmental Chemistry, Waste Management and Disposal, Ecosystem

Abstract

The environmental contamination of antibiotics caused by their over or inappropriate use is a major issue for environmental and human health since it can adversely impact the ecosystems and promote the antimicrobial resistance. Indeed, considering that in the environmental matrices these drugs are present at low levels, the possibility that bacteria exhibit a hormetic response to increase their resilience when exposed to antibiotic subinhibitory concentrations might represent a serious threat. Information reported in this review showed that exposure to different types of antibiotics, either administered individually or in mixtures, is capable of exerting hormetic effects on bacteria at environmentally relevant concentrations. These responses have been reported regardless of the type of bacterium or antibiotic, thus suggesting that hormesis would be a generalized adaptive mechanism implemented by bacteria to strengthen their resistance to antibiotics. Hormetic effects included growth, bioluminescence and motility of bacteria, their ability to produce biofilm, but also the frequency of mutation and plasmid conjugative transfer. The evaluation of quantitative features of antibiotic-induced hormesis showed that these responses have both maximum stimulation and dose width characteristics similar to those already reported in the literature for other stressors. Notably, mixtures comprising individual antibiotic inducing stimulatory responses might have distinct combined effects based on antagonistic, synergistic or additive interactions between components. Regarding the molecular mechanisms of action underlying the aforementioned effects, we put forward the hypothesis that the adoption of adaptive/defensive responses would be driven by the ability of antibiotic low doses to modulate the transcriptional activity of bacteria. Overall, our findings suggest that hormesis plays a pivotal role in affecting the bacterial behavior in order to acquire a survival advantage. Therefore, a proactive and effective risk assessment should necessarily take due account of the hormesis concept to adequately evaluate the risks to ecosystems and human health posed by antibiotic environmental contamination.

Published

2021

21. A quantitative assessment of hormetic responses of plants to ozone

Author

Marisa Domingos, Zhaozhong Feng, Yasutomo Hoshika, Costas J. Saitanis, Mitsutoshi Kitao, Vicent Calatayud, Evgenios Agathokleous, Edward J. Calabrese, Takayoshi Koike, Valda Araminiene, Regina G. Belz, Pierre Sicard, Alessandra De Marco, Elena Paoletti, Agathokleous, E., Araminiene, V., Belz, R. G., Calatayud, V., De Marco, A., Domingos, M., Feng, Z., Hoshika, Y., Kitao, M., Koike, T., Paoletti, E., Saitanis, C. J., Sicard, P., and Calabrese, E. J.

Subjects

Ozone, Perennial plant, Hormesi, Non-linear, Air pollution, 010501 environmental sciences, Biology, Environmental change, 01 natural sciences, Biochemistry, Trees, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Hormesis, Stress biology, 030212 general & internal medicine, Plant Physiological Phenomena, 0105 earth and related environmental sciences, General Environmental Science, Air Pollutants, Ecology, Vegetation, Evergreen, Herbaceous plant, Plants, Dose-response, U-shaped curve, Deciduous, chemistry, Woody plant

Abstract

Evaluations of ozone effects on vegetation across the globe over the last seven decades have mostly incorporated exposure levels that were multi-fold the preindustrial concentrations. As such, global risk assessments and derivation of critical levels for protecting plants and food supplies were based on extrapolation from high to low exposure levels. These were developed in an era when it was thought that stress biology is framed around a linear dose-response. However, it has recently emerged that stress biology commonly displays non-linear, hormetic processes. The current biological understanding highlights that the strategy of extrapolating from high to low exposure levels may lead to biased estimates. Here, we analyzed a diverse sample of published empirical data of approximately 500 stimulatory, hormetic-like dose-responses induced by ozone in plants. The median value of the maximum stimulatory responses induced by elevated ozone was 124%, and commonly

Published

2019

22. The two faces of nanomaterials: A quantification of hormesis in algae and plants

Author

Edward J. Calabrese, Zhaozhong Feng, Ivo Iavicoli, Evgenios Agathokleous, Agathokleous, E., Feng, Z., Iavicoli, I., and Calabrese, E. J.

Subjects

010504 meteorology & atmospheric sciences, Engineered nanomaterials, Hormesi, Environmental pollution, Preconditioning, 010501 environmental sciences, Risk Assessment, 01 natural sciences, Nanomaterials, Hormesis, Nanoparticle, Algae, Agricultural sustainability, Humans, lcsh:Environmental sciences, 0105 earth and related environmental sciences, General Environmental Science, lcsh:GE1-350, No-Observed-Adverse-Effect Level, Dose-Response Relationship, Drug, biology, Chemistry, Low dose, Plants, biology.organism_classification, Priming, Environmental chemistry, Nanoparticles

Abstract

The rapid progress in nanotechnology has dramatically promoted the application of engineered nanomaterials in numerous sectors. The wide application of nanomaterials and the potential accumulation in the environment sparked interest in studying the effects of nanomaterials on algae and plants. Hormesis is a dose response phenomenon characterized by a biphasic dose response with a low dose stimulation and a high dose inhibition. This paper quantifies for the first time nanomaterial-induced hormesis in algae and plants. Five hundred hormetic concentration-response relationships were mined from the published literature. The median maximum stimulatory response (MAX) was 123%, and commonly below 200%, of control response. It was also lower in algae than in plants, and occurred commonly at concentrations

Published

2019

23. Differential responses and mechanisms of monoterpene emissions from broad-leaved and coniferous species under elevated ozone scenarios.

Author

Yuan X, Du Y, Feng Z, Gun S, Qu L, and Agathokleous E

Subjects

Ozone, Air Pollutants toxicity, Monoterpenes metabolism, Plant Leaves drug effects, Tracheophyta drug effects, Tracheophyta physiology

Abstract

Although ozone (O 3 ) pollution affects plant growth and monoterpene (MT) emissions, the responses of MT emission rates to elevated O 3 and the related mechanisms are not entirely understood. To gain an insight into these effects and mechanisms, we evaluated physiological (leaf MT synthesis ability, including precursor availability and enzyme kinetics) and physicochemical limiting factors (e.g. leaf thickness of the lower and upper epidermis, palisade and spongy tissue, and size of resin ducts and stomatal aperture) affecting MT emissions simultaneously from two broad-leaved and two coniferous species after one growing season of field experiment. The effects of elevated O 3 on MT emissions and the related mechanisms differed between plant functional types. Specifically, long-term moderate O 3 exposure significantly reduced MT emissions in broad-leaved species, primarily attributed to a systematic decrease in MT synthesis ability, including reductions in all MT precursors, geranyl diphosphate content, and MT synthase protein levels. In contrast, the same O 3 exposure significantly enhanced MT emissions in coniferous species. However, the change in MT emissions in coniferous species was not due to modifications in leaf MT synthesis ability but rather because of alterations in leaf anatomical structure characteristics, particularly the size of resin ducts and stomatal aperture. These findings provide an important understanding of the mechanisms driving MT emissions from different tree functional groups and can enlighten the estimation of MT emissions in the context of O 3 pollution scenarios as well as the development of MT emission algorithms., 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 © 2024 Elsevier B.V. All rights reserved.)

Published

2024

24. Phenology- and light-based parameterization of stomatal conductance model for urban woody species in northern China.

Author

Li S, Ma Y, Yang X, Zhang L, Xu Y, Yuan X, Agathokleous E, Xu Y, and Feng Z

Subjects

China, Trees, Cities, Light, Seasons, Environmental Monitoring methods, Ozone analysis, Plant Stomata physiology, Plant Stomata radiation effects, Air Pollutants analysis, Air Pollutants toxicity

Abstract

Surface ozone (O 3 ) poses a significant threat to urban vegetation health, and assessing the O 3 risk across woody species is of vital importance for maintaining the health of urban infrastructure. In the present study, Jarvis-type stomatal conductance model was parameterized for ten urban species in northern China. Incorporating the effects of time of day and diurnal O 3 concentration significantly enhanced the model performance. For different plant functional types (greening trees, greening shrubs, and orchard-grown trees), three parameterizations were established to estimate stomatal O 3 uptake (POD 1 , phytotoxic O 3 dose over an hourly threshold of 1 nmol m -2 s -1 ). The differences in POD 1 between greening trees and shrubs were primarily due to the difference in their stomatal sensitivity to light. Orchard-grown trees displayed the lowest O 3 removal capacity (lowest value of POD 1 ) because of their shorter growing season despite of high stomatal conductance. These results indicated that plant phenology and light responsiveness determined stomatal O 3 uptake, and the three parameterizations developed here could be applicable to various urban species in northern regions. Among climatic factors for O 3 risk assessment, O 3 concentration was the most important factor determining annual variation of POD 1 , which was primarily driven by air temperature. However, when O 3 pollution decreased, O 3 concentration exhibited less dependence on temperature and more dependence on light. These findings provide crucial insights for urban policy-makers and environmental scientists aiming to mitigate O 3 pollution effects and enhance urban vegetation health., 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 © 2024 Elsevier Inc. All rights reserved.)

Published

2024

25. Reimagining agrochemical pollution mitigation: Leveraging hormesis for sustainable environmental solutions.

Author

Agathokleous E, Guedes RNC, and Calabrese EJ

Subjects

Environmental Restoration and Remediation methods, Hormesis, Agrochemicals, Environmental Pollution prevention & control

Abstract

Emerging evidence reveals that low doses of stress stimulate, and high doses suppress, organism responses - a phenomenon known as hormesis. Here, we propose a framework for harnessing hormesis principles to optimize agrochemical use and mitigate pollution. We discuss how hormesis can be applied in agrochemical context and highlight challenges and needs beyond scientific research, offering a perspective for sustainable environmental solutions., 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 © 2024 Elsevier B.V. All rights reserved.)

Published

2024

26. Methane Production Is More Sensitive to Temperature Increase than Aerobic and Anaerobic Methane Oxidation in Chinese Paddy Soils.

Author

Yang WT, Agathokleous E, Wu JH, Chen HY, Wu RJ, Huang HC, Ren BJ, Wen SL, Shen LD, and Wang WQ

Subjects

Aerobiosis, Anaerobiosis, China, Soil Microbiology, Oryza, Methane metabolism, Oxidation-Reduction, Soil chemistry, Temperature

Abstract

Methane emissions from paddy fields can increase under future warming scenarios. Nevertheless, a comprehensive comparison of the temperature sensitivity of methane-related microbial processes remains elusive. Here, we revealed that the temperature sensitivity of methane production (activation energy ( E a ) = 0.94 eV; 95% confidence interval (CI), 0.78-1.10 eV) and aerobic ( E a = 0.49 eV; 95% CI, 0.34-0.65 eV) and anaerobic ( E a = 0.46 eV; 95% CI, 0.30-0.62 eV) methane oxidation exhibited notable spatial heterogeneity across 12 Chinese paddy fields spanning 35° longitude and 18° latitude. In addition, the E a values of aerobic and anaerobic methane oxidation were significantly positively and negatively correlated to the latitude, respectively, while there was no significant correlation between the E a of methane production and the latitude. Overall, there were no soil factors that had a significant effect on the E a of methane production. The E a of aerobic methane oxidation was primarily influenced by the contents of ammonium and clay, whereas the E a of anaerobic methane oxidation was mainly influenced by the conductivity. Despite the variation, the overall temperature sensitivity of methane production was significantly higher than that of oxidation at a continental scale; therefore, an increase in the emission of methane from paddy fields will be predicted under future warming. Taken together, our study revealed the characteristics of temperature sensitivity of methane production and aerobic and anaerobic methane oxidation simultaneously in Chinese paddy fields, highlighting the potential roles of soil factors in influencing temperature sensitivity.

Published

2024

27. High-affinity potassium transporter TaHAK1 implicates in cesium tolerance and phytoremediation.

Author

Liu J, Chen SB, Fan ZH, Liu H, Chen Y, Seth CS, Agathokleous E, Guo TC, Kang GZ, and Li GZ

Abstract

Cesium (Cs) is a toxic alkaline metal affecting human health. Plant high-affinity K transporters (HAKs) involved in Cs uptake and transport have been identified in several plants. However, the molecular regulatory mechanisms of Cs uptake and transport, and homeostasis between Cs and K by HAKs remain unknown. In this study, TaHAK1 was overexpressed in rice (TaHAK1-OEs) to evaluate Cs absorption capacity and the Cs and K homeostasis mechanisms. Results showed that TaHAK1 promoted seedling growth by fixing Cs in the root cell wall and modifying Cs distribution. Transcriptome and bioinformatics analyses revealed that 37,828 differentially expressed genes (DEGs) were significantly induced in TaHAK1-OEs, of which the pathways involved in cell wall biosynthesis and ion absorption transport were notably affected including genes, XTHs, CSLEs, HAKs, and ABCs. Moreover, under Cs-contaminated soil, TaHAK1-OEs exhibited improved Cs tolerance by decreasing Cs accumulation and increasing K content in different tissues, particularly in the grains, indicating that TaHAK1 acts as a candidate gene for screening genetic modification of Cs phytoremediation and developing low-Cs-accumulation rice varieties. This study provides new insights into the uptake and translocation of Cs and the homeostasis of Cs and K in plants, and also supplies new strategy to improve phytoremediation efficiency., 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 © 2024 Elsevier B.V. All rights reserved.)

Published

2024

28. Oocyte maturation, blastocyst and embryonic development are mediated and enhanced via hormesis.

Author

Calabrese EJ, Pressman P, Hayes AW, Dhawan G, Kapoor R, Agathokleous E, and Calabrese V

Subjects

Humans, Animals, Female, Hormesis, Oocytes drug effects, Oocytes physiology, Embryonic Development drug effects, Blastocyst drug effects, Blastocyst physiology

Abstract

The present paper provides the first integrative assessment of the capacity of dietary, endogenous and other agents to induce hormetic dose responses in oocytes, their supportive cells such as granulosa cells, blastocyst formation and early stage embryo development with the goal of improving fertility and reproductive success. The analysis showed that numerous agents enhance oocyte maturation and blastocyst/embryonic development in an hormetic fashion. These findings indicate that numerous agents improve oocyte-related biological functioning under normal conditions as well as enhancing its capacity to prevent damage from numerous chemical toxins and related stressor agents, including heat and age-related processes in pre-post conditioning and concurrent exposures. The present assessment suggests that hormetic-based lifestyles and dietary interventions may offer the potential to enhance healthy reproductive performance with applications to animal husbandry and human biology. The present findings also significantly extend the generality of the hormesis dose response concept to multiple fundamental biological processes (i.e., oocyte maturation, fertilization and blastocyst/embryo development)., 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 © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

29. Unraveling the difference of sensitivity to ozone between non-hybrid native poplar and hybrid poplar clones: A flux-based dose-response analysis.

Author

Hoshika Y, Pollastrini M, Marzuoli R, Gerosa G, Marra E, Moura BB, Agathokleous E, Calatayud V, Feng Z, Sicard P, and Paoletti E

Subjects

Dose-Response Relationship, Drug, Biomass, Plant Leaves drug effects, Ozone toxicity, Populus drug effects, Populus genetics, Air Pollutants toxicity

Abstract

Poplars are economically important tree crops and biologically important model plants, which are known to be sensitive to ozone (O 3 ). Although surface O 3 is considered as a significant global environmental issue because of its phytotoxicity and greenhouse effect, the knowledge of the dose-response (DR) relationships in poplars for the assessment of O 3 risk is still limited. Hence, this study aimed at collecting data of studies with manipulative O 3 exposures of poplars within FACE (Free Air Concentration Enhancement) and OTC (Open-Top Chamber) facilities. The datasets contain studies on hybrid poplar clones and a non-hybrid native poplar (Populus nigra L.) reporting both AOT40 (Accumulated exposure Over a Threshold of 40 ppb) and POD1 (Phytotoxic Ozone Dose above a threshold of 1 nmol m -2 Projected Leaf Area [PLA] s -1 ) to compare exposure- and flux-based indices. As a result, linear regression analysis showed that the flux-based POD1 was better than the exposure-based AOT40 to explain the biomass response of poplars to O 3 . From the DR relationships, a critical level (CL) of 5.7 mmol m -2 POD1 has been derived corresponding to 4% biomass growth reduction for hybrid poplar clones, which can be considered very sensitive to O 3 , while the non-hybrid native poplar was less sensitive to O 3 (CL: 10.3 mmol m -2 POD1), although the potential risk of O 3 for this taxon is still high due to very high stomatal conductance. Moreover, the different experimental settings (OTC vs. FACE) have affected the AOT40-based DR relationships but not the POD1-based DR relationships, suggesting that poplar responses to O 3 were principally explained by stomatal O 3 uptake regardless of the different experimental settings and exposure patterns. These results highlight the importance of the flux-based approach, especially when scaling up from experimental datasets to the O 3 risk assessment for poplars at the regional or global scale., 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 © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

30. The duality of sulfate-reducing bacteria: Reducing methylmercury production in rhizosphere but enhancing accumulation in rice plants.

Author

Guo P, Du H, Mao Q, Deng Y, Wang X, Li J, Xiong B, Fan X, Wang D, Agathokleous E, and Ma M

Subjects

Soil Microbiology, Plant Roots metabolism, Plant Roots microbiology, Sulfates metabolism, Bacteria metabolism, Sulfur-Reducing Bacteria metabolism, Biodegradation, Environmental, Oryza metabolism, Oryza microbiology, Oryza growth & development, Methylmercury Compounds metabolism, Rhizosphere, Soil Pollutants metabolism

Abstract

Sulfate-reducing bacteria (SRB) are known to alter methylmercury (MeHg) production in paddy soil, but the effect of SRB on MeHg dynamics in rhizosphere and rice plants remains to be fully elucidated. The present study investigated the impact of SRB on MeHg levels in unsterilized and γ-sterilized mercury-polluted paddy soils, with the aim to close this knowledge gap. Results showed that the presence of SRB reduced MeHg production by ∼22 % and ∼17 % in the two soils, but elevated MeHg contents by approximately 55 % and 99 % in rice grains, respectively. Similar trend at smaller scales were seen in roots and shoots. SRB inoculation exerted the most profound impact on amino acid metabolism in roots, with the relative response of L-arginine positively linking to MeHg concentrations in rhizosphere. The SRB-induced enrichment of MeHg in rice plants may be interpreted by the stronger presence of endophytic nitrogen-related microbes (e.g. Methylocaldum, Hyphomicrobium and Methylocystis) and TGA transcription factors interacting with glutathione metabolism and calmodulin. Our study provides valuable insights into the complex effects of SRB inoculation on MeHg dynamics in rice ecosystems, and may help to develop strategies to effectively control MeHg accumulation in rice grains., 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 © 2024 Elsevier B.V. All rights reserved.)

Published

2024

31. The interplay of soil physicochemical properties, methanogenic diversity, and abundance governs methane production potential in paddy soil subjected to multi-decadal straw incorporation.

Author

Yang Y, Shen L, Agathokleous E, Wang S, Jin Y, Bai Y, Yang W, Ren B, Jin J, and Zhao X

Subjects

Oryza, Agriculture methods, Fertilizers analysis, Methane biosynthesis, Methane metabolism, Soil chemistry, Soil Microbiology

Abstract

Straw incorporation holds significant promise for enhancing soil fertility and mitigating air pollution stemming from straw burning. However, this practice concurrently elevates the production and emission of methane (CH 4 ) from paddy ecosystems. Despite its environmental impact, the precise mechanisms behind the heightened CH 4 production resulting from long-term straw incorporation remain elusive. In a 32-year field experiment featuring three fertilization treatments (CFS-chemical fertilizer with wheat straw, CF-chemical fertilizer, and CK-unamended), we investigated the impact of abiotic (soil physicochemical properties) and biotic (methanogenic abundance, diversity, and community composition) factors on CH 4 production in paddy fields. Results revealed a significantly higher CH 4 production potential under CFS treatment compared to CF and CK treatments. The partial least squares path model revealed that soil physicochemical properties (path coefficient = 0.61), methanogenic diversity (path coefficient = -0.43), and methanogenic abundance (path coefficient = 0.29) collectively determined CH 4 production potential, explaining 77% of the variance. Enhanced soil organic carbon content and water content, resulting from straw incorporation, emerged as pivotal factors positively correlated with CH 4 production potential. Under CFS treatment, lower Shannon index of methanogens, compared to CF and CK treatments, was attributed to increased Methanosarcina. Notably, the Shannon index and relative abundance of Methanosarcina exhibited negative and positive correlations with CH 4 production potential, respectively. Methanogenic abundance, bolstered by straw incorporation, significantly amplified overall potential. This comprehensive analysis underscores the joint influence of abiotic and biotic factors in regulating CH 4 production potential during multi-decadal straw incorporation., 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 © 2024 Elsevier Inc. All rights reserved.)

Published

2024

32. Ozone risk assessment with free-air controlled exposure (FACE) experiments: A critical revisit.

Author

Hoshika Y, Agathokleous E, Moura BB, and Paoletti E

Subjects

Risk Assessment methods, Air Pollutants analysis, Air Pollutants toxicity, Biomass, Environmental Exposure, Ozone analysis

Abstract

Since risk assessments of tropospheric ozone (O 3 ) are crucial for agricultural and forestry sectors, there is a growing body for realistic assessments by a stomatal flux-based approach in Free-Air Controlled Exposure (FACE) facilities. Ozone risks are normally described as relative risks (RRs), which are calculated by assuming the biomass or yield at zero O 3 dose as "reference". However, the estimation of the reference biomass or yield is challenging due to a lack of O 3 -clean-air treatment at the FACEs and the extrapolation without data in a low O 3 range increases the bias for estimating the reference values. Here, we reviewed a current methodology for the risk assessment at FACEs and presented a simple and effective way ("modified Paoletti's approach") of defining RRs just using biomass or yield data with a range of expected impacts under the FACE conditions hypothesizing three possible scenarios based on prediction limits using 95% credible intervals (CI) (1. Best fit using the intercept as reference, 2. Optimistic scenario using a lower CI and 3. Worst scenario using an upper CI). As a result, O 3 -sensitive species show a relatively narrow effect range (optimistic vs. worst scenario) whereas a wide range of response may be possibly taken in resistant species. Showing a possible effect range allows for a comprehensive understanding of the potential risks and its uncertainties related to a species sensitivity to O 3 . As a supporting approach, we also recommend to use scientifically relevant tools (i.e., ethylenediurea treatments; mechanistic plant models) for strengthening the obtained results for the RRs against O 3 . Interestingly, the moderately sensitive or resistant species showed non-linear rather than linear dose-response relationships, suggesting a need for the flexible functional form for the risk assessment to properly describe the complex plant response such as hormesis, which depends on their plasticity to O 3 stress., 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 © 2024 Elsevier Inc. All rights reserved.)

Published

2024

33. Leaf water relations determine the trade-off between ozone resistance and stomatal functionality in urban tree species.

Author

Li S, Li S, Agathokleous E, Hao G, Wang S, and Feng Z

Subjects

Plant Transpiration physiology, Plant Transpiration drug effects, Ozone pharmacology, Plant Stomata physiology, Plant Stomata drug effects, Water metabolism, Water physiology, Trees physiology, Trees drug effects, Plant Leaves physiology, Plant Leaves drug effects, Plant Leaves metabolism, Quercus physiology, Quercus drug effects, Photosynthesis drug effects

Abstract

Urban trees possess different capacities to mitigate ozone (O 3 ) pollution through stomatal uptake. Stomatal closure protects trees from oxidative damage but limits their growth. To date, it is unclear how plant hydraulic function affect stomatal behaviour and determine O 3 resistance. We assessed gas exchange and hydraulic traits in three subtropical urban tree species, Celtis sinensis, Quercus acutissima, and Q. nuttallii, under nonfiltered ambient air (NF) and elevated O 3 (NF60). NF60 decreased photosynthetic rate (A n ) and stomatal conductance (g s ) only in Q. acutissima and Q. nuttallii. Maintained A n in C. sinensis suggested high O 3 resistance and was attributed to higher leaf capacitance at the full turgor. However, this species exhibited a reduced stomatal sensitivity to vapour pressure deficit and an increased minimal g s under NF60. Such stomatal dysfunction did not decrease intrinsic water use efficiency (WUE) due to a tight coupling of A n and g s . Conversely, Q. acutissima and Q. nuttallii showed maintained stomatal sensitivity and increased WUE, primarily correlated with g s and leaf water relations, including relative water content and osmotic potential at turgor loss point. Our findings highlight a trade-off between O 3 resistance and stomatal functionality, with efficient stomatal control reducing the risk of hydraulic failure under combined stresses., (© 2024 John Wiley & Sons Ltd.)

Published

2024

34. Anthocyanins act as a sugar-buffer and an alternative electron sink in response to starch depletion during leaf senescence: a case study on a typical anthocyanic tree species, Acer japonicum.

Author

Kitao M, Yazaki K, Tobita H, Agathokleous E, Kishimoto J, Takabayashi A, and Tanaka R

Subjects

Plant Senescence, Photosynthesis, Acer physiology, Acer metabolism, Starch metabolism, Anthocyanins metabolism, Plant Leaves physiology, Plant Leaves metabolism

Abstract

We hypothesized that anthocyanins act as a sugar-buffer and an alternative electron sink during leaf senescence to prevent sugar-mediated early senescence and photoinhibition. To elucidate the role of anthocyanin, we monitored seasonal changes in photosynthetic traits, sugar, starch and N contents, pigment composition, and gene expression profiles in leaves exposed to substantially different light conditions within a canopy of an adult fullmoon maple (Acer japonicum) tree. Enhancement of starch amylolysis accompanied by cessation of starch synthesis occurred in the same manner independent of light conditions. Leaf sugar contents increased, but reached upper limits in the late stage of leaf senescence, even though leaf anthocyanins further increased after complete depletion of starch. Sun-exposed leaves maintained higher energy consumption via electron flow than shade-grown leaves during leaf N resorption. Thus, anthocyanins accumulated in sun-exposed leaves might have a regulative role as a sugar-buffer, retarding leaf senescence, and an indirect photoprotective role as an alternative sink for electron consumption to compensate declines in other metabolic processes such as starch and protein synthesis. In this context, anthocyanins may be key substrates protecting both outer-canopy leaves (against photoinhibition) and inner-canopy leaves (via shading by outer-canopy leaves) from high light stress during N resorption., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Society for Experimental Biology. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

35. Author Correction: Maximizing carbon sequestration potential in Chinese forests through optimal management.

Author

Yu Z, Liu S, Li H, Liang J, Liu W, Piao S, Tian H, Zhou G, Lu C, You W, Sun P, Dong Y, Sitch S, and Agathokleous E

Published

2024

36. RUTIN, a widely consumed flavonoid, that commonly induces hormetic effects.

Author

Calabrese EJ, Pressman P, Hayes AW, Dhawan G, Kapoor R, Agathokleous E, and Calabrese V

Subjects

Humans, Flavonoids pharmacology, Models, Biological, Vegetables, Hormesis, Rutin pharmacology

Abstract

Rutin is a flavonoid present in numerous fruits and vegetables and therefore widely consumed by humans. It is also a popular dietary supplement of 250-500 mg/day. There is considerable consumer interest in rutin due to numerous reports in the biomedical literature of its multi-system chemo-preventive properties. The present paper provides the first assessment of rutin-induced hormetic concentration/dose responses, their quantitative features and mechanistic basis, along with their biological, biomedical, clinical, and public health implications. The findings indicate that rutin-induced hormetic dose responses are widespread, being reported in numerous biological models and cell types for a wide range of endpoints. Of critical importance is that the optimal hormetic findings shown in in vitro systems are currently not achievable for human populations due to low gastrointestinal tract bioavailability. These findings have the potential to strengthen future experimental studies with rutin, particularly concerning study design parameters., 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 © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

37. Maximizing carbon sequestration potential in Chinese forests through optimal management.

Author

Yu Z, Liu S, Li H, Liang J, Liu W, Piao S, Tian H, Zhou G, Lu C, You W, Sun P, Dong Y, Sitch S, and Agathokleous E

Subjects

Trees, China, Biomass, Carbon analysis, Carbon Sequestration, Forests

Abstract

Forest carbon sequestration capacity in China remains uncertain due to underrepresented tree demographic dynamics and overlooked of harvest impacts. In this study, we employ a process-based biogeochemical model to make projections by using national forest inventories, covering approximately 415,000 permanent plots, revealing an expansion in biomass carbon stock by 13.6 ± 1.5 Pg C from 2020 to 2100, with additional sink through augmentation of wood product pool (0.6-2.0 Pg C) and spatiotemporal optimization of forest management (2.3 ± 0.03 Pg C). We find that statistical model might cause large bias in long-term projection due to underrepresentation or neglect of wood harvest and forest demographic changes. Remarkably, disregarding the repercussions of harvesting on forest age can result in a premature shift in the timing of the carbon sink peak by 1-3 decades. Our findings emphasize the pressing necessity for the swift implementation of optimal forest management strategies for carbon sequestration enhancement., (© 2024. The Author(s).)

Published

2024

38. Can ethylenediurea (EDU) alter the effects of ozone on the source-sink regulation of nitrogen uptake and remobilization during grain filling period in rice?

Author

Shang B, Tian T, Shen D, Du E, Agathokleous E, and Feng Z

Subjects

Edible Grain, Fertilizers, Nitrogen pharmacology, Oryza, Ozone pharmacology

Abstract

Increased surface ozone (O 3 ) pollution seriously threatens crop production, and ethylenediurea (EDU) can alleviate crop yield reduction caused by O 3 . However, the reason for the decrease in grain nitrogen (N) accumulation caused by O 3 and whether EDU serves as N fertilizer remain unclear. An experiment was conducted to investigate the impacts of factorial combinations of O 3 enrichment (ambient air plus 60 ppb) and EDU (foliage spray with 450 ppm solutions) on N concentration, accumulation and remobilization in hybrid rice seedlings. Compared to ambient condition, elevated O 3 significantly inhibited the N accumulation in vegetative organs during anthesis and grain N accumulation during the maturity stage. Elevated O 3 significantly decreased the total N accumulation during anthesis and maturity stages, with a greater impact at the latter stage. The decrease in grain N accumulation caused by O 3 was attributed to a decrease in N remobilization of vegetative organs during the grain filling period as well as to a decrease in post-anthesis N uptake. However, there was no significant change in the proportion of N remobilization and N uptake in grain N accumulation. The inhibitory effect of O 3 on N remobilization in the upper canopy leaves was greater than that in the lower canopy leaves. In addition, elevated O 3 increased the N accumulation of panicles at the anthesis stage, mainly by resulting in earlier heading of rice. EDU only increased N accumulation at the maturity stage, which was mainly attributed to an increase in rice biomass by EDU. EDU had no significant effect on N concentration, N remobilization process, and N harvest index. The findings are helpful to better understand the utilization of N fertilizer by rice under O 3 pollution, and can also provide a theoretical basis for sustainable nutrient management to alleviate the negative impact of O 3 on crop yield and quality., 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 © 2024 Elsevier B.V. All rights reserved.)

Published

2024

39. Climate gradient and leaf carbon investment influence the effects of climate change on water use efficiency of forests: A meta-analysis.

Author

Li S, Agathokleous E, Li S, Xu Y, Xia J, and Feng Z

Subjects

Carbon, Climate Change, Carbon Dioxide, Forests, Plant Leaves chemistry, Plants, Ecosystem, Water

Abstract

Forest ecosystems cover a large area of the global land surface and are important carbon sinks. The water-carbon cycles of forests are prone to climate change, but uncertainties remain regarding the magnitude of water use efficiency (WUE) response to climate change and the underpinning mechanism driving WUE variation. We conducted a meta-analysis of the effects of elevated CO 2 concentration (eCO 2 ), drought and elevated temperature (eT) on the leaf- to plant-level WUE, covering 80 field studies and 95 tree species. The results showed that eCO 2 increased leaf intrinsic and instantaneous WUE (WUEi, WUEt), whereas drought enhanced both leaf- and plant-level WUEs. eT increased WUEi but decreased carbon isotope-based WUE, possibly due to the influence of mesophyll conductance. Stimulated leaf-level WUE by drought showed a progressing trend with increasing latitude, while eCO 2 -induced WUE enhancement showed decreasing trends after >40° N. These latitudinal gradients might influence the spatial pattern of climate and further drove WUE variation. Moreover, high leaf-level WUE under eCO 2 and drought was accompanied by low leaf carbon contents. Such a trade-off between growth efficiency and defence suggests a potentially compromised tolerance to diseases and pests. These findings add important ecophysiological parameters into climate models to predict carbon-water cycles of forests., (© 2023 John Wiley & Sons Ltd.)

Published

2024

40. Drought mitigates the adverse effects of O 3 on plant photosynthesis rather than growth: A global meta-analysis considering plant functional types.

Author

Shang B, Agathokleous E, Calatayud V, Peng J, Xu Y, Li S, Liu S, and Feng Z

Subjects

Droughts, Photosynthesis, Plant Leaves physiology, Plants, Ecosystem, Ozone toxicity

Abstract

Tropospheric ozone (O 3 ) is a phytotoxic air pollutant adversely affecting plant growth. High O 3 exposures are often concurrent with summer drought. The effects of both stresses on plants are complex, and their interactions are not yet well understood. Here, we investigate whether drought can mitigate the negative effects of O 3 on plant physiology and growth based on a meta-analysis. We found that drought mitigated the negative effects of O 3 on plant photosynthesis, but the modification of the O 3 effect on the whole-plant biomass by drought was not significant. This is explained by a compensatory response of water-deficient plants that leads to increased metabolic costs. Relative to water control condition, reduced water treatment decreased the effects of O 3 on photosynthetic traits, and leaf and root biomass in deciduous broadleaf species, while all traits in evergreen coniferous species showed no significant response. This suggested that the mitigating effects of drought on the negative impacts of O 3 on the deciduous broadleaf species were more extensive than on the evergreen coniferous ones. Therefore, to avoid over- or underestimations when assessing the impact of O 3 on vegetation growth, soil moisture should be considered. These results contribute to a better understanding of terrestrial ecosystem responses under global change., (© 2024 John Wiley & Sons Ltd.)

Published

2024

41. Flavonoids commonly induce hormetic responses.

Author

Calabrese EJ, Hayes AW, Pressman P, Dhawan G, Kapoor R, Agathokleous E, and Calabrese V

Subjects

Cell Survival, Dose-Response Relationship, Drug, Hormesis, Flavonoids toxicity

Abstract

The present paper provides a new perspective of previously published findings by Siwak (Food Chem 141:1227-1241, 2013) which showed that 15 structurally diverse flavonoids reduced toxicity (i.e., enhanced cell viability) from hypochlorite using the MTT assay within a pre-conditioning experimental protocol, with each agent showing a similar biphasic concentration response relationship. We use this Commentary to point out that each of the concentration response relationships are consistent with the hormetic dose response. The paper of Siwak (Food Chem 141:1227-1241, 2013) is unique in that it provides a comparison of a relatively large number of agents using the identical experimental protocol., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

42. Taurine induces hormesis in multiple biological models: May have transformative implications for overall societal health.

Author

Calabrese EJ, Pressman P, Hayes AW, Kapoor R, Dhawan G, Agathokleous E, and Calabrese V

Subjects

Hormesis, Models, Biological

Abstract

This paper represents the first integrative assessment and documentation of taurine-induced hormetic effects in the biological and biomedical areas, their dose response features, mechanistic frameworks, and possible public health, therapeutic and commercial applications. Taurine-induced hormetic effects are documented in a wide range of experimental models, cell types and for numerous biological endpoints, with most of these experimental findings being reported within the past five years. It is suggested that the concept of hormesis may have a transformative effect on taurine research and its public health and therapeutic applications., 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 © 2024 Elsevier B.V. All rights reserved.)

Published

2024

43. Tetracycline and sulfadiazine toxicity in human liver cells Huh-7.

Author

Yao X, Cheng Z, Agathokleous E, Wei Y, Feng X, Li H, Zhang T, Li S, Dhawan G, and Luo XS

Subjects

Humans, Tetracycline toxicity, Liver, Hepatocytes, Sulfadiazine toxicity, Anti-Bacterial Agents toxicity

Abstract

As typical antibiotics, tetracycline (TC) and sulfadiazine (SDZ) enter the human body through the food chain. Therefore, it is necessary to understand their individual and combined toxicity. In this study, the effects of TC, SDZ, and their mixture on cell viability, cell membrane damage, liver cell damage, and oxidative damage were evaluated in in vitro assays with human liver cells Huh-7. The results showed cytotoxicity of TC, SDZ, and their mixture, which induced oxidative stress and caused membrane and cell damage. The effect of antibiotics on Huh-7 cells increased with increasing concentration, except for lactate dehydrogenase (LDH) activity that commonly showed a threshold concentration response and cell viability, which commonly showed a biphasic trend, suggesting the possibility of hormetic responses where proper doses are included. The toxicity of TC was commonly higher than that of SDZ when applied at the same concentration. These findings shed light on the individual and joint effects of these major antibiotics on liver cells, providing a scientific basis for the evaluation of antibiotic toxicity and associated risks., 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 © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

44. Effect of microplastics on soil greenhouse gas emissions in agroecosystems: Does it depend upon microplastic shape and soil type?

Author

Feng T, Wei Z, Agathokleous E, and Zhang B

Subjects

Soil, Microplastics, Plastics, Agriculture, Carbon Dioxide analysis, Nitrous Oxide analysis, Bacteria, Greenhouse Gases analysis, Microbiota, Actinobacteria

Abstract

Microplastics have emerged as a significant pollutant in terrestrial ecosystems, with their accumulation in agricultural fields influencing soil greenhouse gas emissions. Nevertheless, the specific impact of microplastics, particularly in relation to their varying shapes, and how this effect manifests across diverse soil types, remains largely unexplored. In this study, a 56-day incubation experiment was conducted to assess the influence of microplastic shapes (fibers, films, and spheres) on CO 2 and N 2 O emissions in three types of soils (Chernozems, Luvisols, and Ferralsols), while also investigating potential associations with the compositional and functional characteristics of soil bacterial communities. When compared to the control group, the introduction of microplastic fibers resulted in an increase of 21.7 % in cumulative CO 2 emissions and a 31.4 % rise in cumulative N 2 O emissions in Ferralsols. This increase was closely linked to the proliferation of the Actinobacteria and Bacilli classes and the orders of Catenulisporales, Bacillales, Streptomycetales, Micrococcales, and Burkholderiales within the bacterial communities of Ferralsols, alongside an observed elevation in N-acetyl-glucosaminidase enzyme activity. The inclusion of microplastic fibers did not result in significant alterations in greenhouse gas emissions within Chernozems and Luvisols. This is likely attributed to the inherent buffering capacity of these soils, which helps stabilize substrate and nutrient availability for microbial communities. These findings highlight that the response of greenhouse gas emissions to microplastic additions is contingent upon the shape of the microplastics and the specific soil types., 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 Elsevier B.V. All rights reserved.)

Published

2024

45. Exogenous application of melatonin protects bean and tobacco plants against ozone damage by improving antioxidant enzyme activities, enhancing photosynthetic performance, and preventing membrane damage.

Author

Vougeleka V, Risoli S, Saitanis C, Agathokleous E, Ntatsi G, Lorenzini G, Nali C, Pellegrini E, and Pisuttu C

Subjects

Antioxidants pharmacology, Nicotiana, Ecosystem, Plants, Melatonin pharmacology, Ozone toxicity, Air Pollutants toxicity

Abstract

Ozone (O 3 ) pollution is harmful to plants and ecosystems. Several chemicals have been evaluated to protect plants against O 3 deleterious effects. However, they are not adequately efficient and/or the environmental safety of their application is questioned. Hence, new chemicals that provide sufficient protection while being safer for environmental application are needed. This study investigates the response of two O 3 -sensitive plant species (Phaseolus vulgaris L. cv. Pinto and Nicotiana tabacum L. cv. Bel-W3) leaf-sprayed with deionized water (W, control), ethylenediurea (EDU, 1 mM) or melatonin at lower (1 mM) or higher (3 mM) concentrations (Mel_L and Mel_H, respectively), and then exposed to a square wave of 200 ppb O 3 , lasting 1 day (5 h day -1 ) for bean and 2 days (8 h day -1 ) for tobacco. In both species, the photosynthetic activity of O 3 -exposed plants was about halved. O 3 -induced membrane damage was also confirmed by increased malondialdehyde (MDA) byproducts compared to control (W). In EDU- and Mel-treated bean plants, the photosynthetic performance was not influenced by O 3 , leading to reduction of the incidence and severity of O 3 visible injury. In bean plants, Mel_L mitigated the detrimental effect of O 3 by boosting antioxidant enzyme activities or osmoprotectants (e.g. abscisic acid, proline, and glutathione transferase). In Mel_L-sprayed tobacco plants, O 3 negatively influenced the photosynthetic activity. Conversely, Mel_H ameliorated the O 3 -induced oxidative stress by preserving the photosynthetic performance, preventing membrane damage, and reducing the visible injuries extent. Although EDU performed better, melatonin protected plants against O 3 phytotoxicity, suggesting its potential application as a bio-safer and eco-friendlier phytoprotectant against O 3 . It is worth noting that the content of melatonin in EDU-treated plants remained unchanged, indicating that the protectant mode of action of EDU is not Mel-related., 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 Elsevier Ltd. All rights reserved.)

Published

2024

46. One hundred important questions facing plant science derived using a large language model.

Author

Agathokleous E, Rillig MC, Peñuelas J, and Yu Z

Subjects

Phenotype, Artificial Intelligence, Language

Abstract

Artificial intelligence (AI) is advancing rapidly and continually evolving in various fields. Recently, the release of ChatGPT has sparked significant public interest. In this study, we revisit the '100 Important Questions Facing Plant Science' by leveraging ChatGPT as a valuable tool for generating thought-provoking questions relevant to plant science. These questions primarily revolve around the utilization of plants in product development, understanding plant mechanisms, plant-environment interactions, and enhancing plant traits, with an emphasis on sustainable product development. While ChatGPT may not capture certain crucial aspects highlighted by scientists, it offers valuable insights into the questions generated by experts. Our analysis demonstrates that ChatGPT can be cautiously employed as a supportive tool to facilitate, streamline, and expedite specific tasks in plant science., Competing Interests: Declaration of interests No interests are declared., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2024

47. Quercetin induces its chemoprotective effects via hormesis.

Author

Calabrese EJ, Hayes AW, Pressman P, Dhawan G, Kapoor R, Agathokleous E, and Calabrese V

Subjects

Humans, Models, Biological, Dose-Response Relationship, Drug, Hormesis, Quercetin pharmacology

Abstract

Quercetin is a polyphenol present in numerous fruits and vegetables and therefore widely consumed by humans with average daily dietary intakes of 10-20 mg/day. It is also a popular dietary supplement of 250-1000 mg/day. However, despite the widespread consumer interest in quercetin, due to its possible chemopreventive properties, the extensively studied quercetin presents a highly diverse and complex array of biological effects. Consequently, the present paper provides the first assessment of quercetin-induced hormetic concentration/dose responses, their quantitative features and mechanistic foundations, and their biological, biomedical, clinical, and public health implications. The findings indicate that quercetin-induced hormetic dose responses are widespread, being independent of biological model, cell type, and endpoint. These findings have the potential to enlighten future experimental studies with quercetin especially with respect to study design parameters and may also affect the appraisal of possible public health benefits and risks associated with highly diverse consumer consumption practices., 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 Elsevier Ltd. All rights reserved.)

Published

2024

48. Evolution of hormesis research: a bibliometric analysis.

Author

Agathokleous E and Calabrese EJ

Subjects

Hormesis, Bibliometrics

Published

2024

49. Hormesis determines lifespan.

Author

Calabrese EJ, Nascarella M, Pressman P, Hayes AW, Dhawan G, Kapoor R, Calabrese V, and Agathokleous E

Subjects

Animals, Humans, Aging physiology, Caenorhabditis elegans physiology, Stress, Physiological, Longevity physiology, Hormesis physiology

Abstract

This paper addresses how long lifespan can be extended via multiple interventions, such as dietary supplements [e.g., curcumin, resveratrol, sulforaphane, complex phytochemical mixtures (e.g., Moringa, Rhodiola)], pharmaceutical agents (e.g., metformin), caloric restriction, intermittent fasting, exercise and other activities. This evaluation was framed within the context of hormesis, a biphasic dose response with specific quantitative features describing the limits of biological/phenotypic plasticity for integrative biological endpoints (e.g., cell proliferation, memory, fecundity, growth, tissue repair, stem cell population expansion/differentiation, longevity). Evaluation of several hundred lifespan extending agents using yeast, nematode (Caenorhabditis elegans), multiple insect and other invertebrate and vertebrate models (e.g., fish, rodents), revealed they responded in a manner [average (mean/median) and maximum lifespans] consistent with the quantitative features [i.e., 30-60% greater at maximum (Hormesis Rule)] of the hormetic dose response. These lifespan extension features were independent of biological model, inducing agent, endpoints measured and mechanism. These findings indicate that hormesis describes the capacity to extend life via numerous agents and activities and that the magnitude of lifespan extension is modest, in the percentage, not fold, range. These findings have important implications for human aging, genetic diseases/environmental stresses and lifespan extension, as well as public health practices and long-term societal resource planning., 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 © 2024 Elsevier B.V. All rights reserved.)

Published

2024

50. Caffeic Acid: Numerous Chemoprotective Effects are Mediated via Hormesis.

Author

Calabrese EJ, Pressman P, Hayes AW, Baldwin L, Agathokleous E, Dhawan G, Kapoor R, and Calabrese V

Subjects

Humans, Animals, Phenylethyl Alcohol analogs & derivatives, Phenylethyl Alcohol pharmacology, Dose-Response Relationship, Drug, Bees, Caffeic Acids pharmacology, Hormesis drug effects, Propolis pharmacology, Antioxidants pharmacology, Dietary Supplements

Abstract

Caffeic acid is a common phenolic acid found in coffee and numerous fruits and vegetables. Known for its antioxidant properties, it is widely used as a dietary supplement as part of a polyphenol mixture or as an extract in the form of a capsule or powder. It is also available in liquid form as a homeopathic supplement. Caffeic acid phenethyl ester (CAPE) is an active component of propolis produced by honey bees. Propolis extract is used as a supplement and is available in various forms. The present paper is a comprehensive review of the biomedical literature, showing that caffeic acid effects are hormetic and occur in numerous biological models and cell types for a broad range of endpoints including many aging-related processes. Hormesis is a biphasic dose/concentration response displaying a low concentration/dose stimulation and a high concentration/dose inhibition. Complex alternative search strategies for caffeic acid were used since publications rarely used the terms hormesis or hormetic. Evaluation of the data provides the first assessment of caffeic acid-induced hormetic concentration/dose responses and their quantitative features. Their mechanistic foundations, extrapolative strengths/limitations, and their biomedical, clinical, and public health implications are discussed. Suggestions for future research are presented.

Published

2024