Your search keyword '"Aggarwal, Srijan"' showing total 3 results

1. Monkeypox outbreak : Wastewater and environmental surveillance perspective

Author

Tiwari, Ananda, Adhikari, Sangeet, Kaya, Devrim, Islam, Md. Aminul, Malla, Bikash, Sherchan, Samendra P., Al-Mustapha, Ahmad Ibrahim, Kumar, Manish, Aggarwal, Srijan, Bhattacharya, Prosun, Bibby, Kyle, Halden, Rolf U., Bivins, Aaron, Haramoto, Eiji, Oikarinen, Sami, Heikinheimo, Annamari, Pitkänen, Tarja, Tampere University, BioMediTech, Food Hygiene and Environmental Health, Zoonotic Antimicrobial Resistance, Helsinki One Health (HOH), Helsinki Institute of Sustainability Science (HELSUS), and Waterborne pathogens

Subjects

3111 Biomedicine, 1172 Environmental sciences

Abstract

Monkeypox disease (MPXD), a viral disease caused by the monkeypox virus (MPXV), is an emerging zoonotic disease endemic in some countries of Central and Western Africa but seldom reported outside the affected region. Since May 2022, MPXD has been reported at least in 74 countries globally, prompting the World Health Organization to declare the MPXD outbreak a Public Health Emergency of International Concern. As of July 24, 2022; 92 % (68/74) of the countries with reported MPXD cases had no historical MPXD case reports. From the One Health perspective, the spread of MPXV in the environment poses a risk not only to humans but also to small mammals and may, ultimately, spread to potent novel host populations. Wastewater-based surveillance (WBS) has been extensively utilized to monitor communicable diseases, particularly during the ongoing COVID-19 pandemic. It helped in monitoring infectious disease caseloads as well as specific viral variants circulating in communities. The detection of MPXV DNA in lesion materials (e.g. skin, vesicle fluid, crusts), skin rashes, and various body fluids, including respiratory and nasal secretions, saliva, urine, feces, and semen of infected individuals, supports the possibility of using WBS as an early proxy for the detection of MPXV infections. WBS of MPXV DNA can be used to monitor MPXV activity/trends in sewerage network areas even before detecting laboratory-confirmed clinical cases within a community. However, several factors affect the detection of MPXV in wastewater including, but not limited to, routes and duration time of virus shedding by infected individuals, infection rates in the relevant affected population, environmental persistence, the processes and analytical sensitivity of the used methods. Further research is needed to identify the key factors that impact the detection of MPXV biomarkers in wastewater and improve the utility of WBS of MPXV as an early warning and monitoring tool for safeguarding human health. In this review, we shortly summarize aspects of the MPXV outbreak relevant to wastewater monitoring and discuss the challenges associated with WBS. publishedVersion

Published

2023

2. Emerging Themes and Future Directions of Multi-Sector Nexus Research and Implementation

Author

Khan, Zarrar, Abraham, Edo, Aggarwal, Srijan, Ahmad Khan, Manal, Arguello, Ricardo, Babbar-Sebens, Meghna, Bereslawski, Julia Lacal, Bielicki, Jeffrey M., Campana, Pietro Elia, Silva Carrazzone, Maria Eugenia, Castanier, Homero, Chang, Fi John, Collins, Pamela, Conchado, Adela, Dagani, Koteswara Rao, Daher, Bassel, Dekker, Stefan C., Delgado, Ricardo, Diuana, Fabio A., Doelman, Jonathan, Elshorbagy, Amin A., Fan, Chihhao, Gaudioso, Rossana, Gebrechorkos, Solomon H., Geli, Hatim M.E., Grubert, Emily, Huang, Daisy, Huang, Tailin, Ilyas, Ansir, Ivakhnenko, Aleksandr, Jewitt, Graham P.W., Ferreira dos Santos, Maria João, Jones, J. Leah, Kellner, Elke, Krueger, Elisabeth H., Kumar, Ipsita, Lamontagne, Jonathan, Lansu, Angelique, Lee, Sanghyun, Li, Ruopu, Linares, Pedro, Marazza, Diego, Mascari, María Pía, McManamay, Ryan A., Meng, Measrainsey, Mereu, Simone, Miralles-Wilhelm, Fernando, Mohtar, Rabi, Muhammad, Abubakr, Opejin, Adenike Kafayat, Pande, Saket, Parkinson, Simon, Payet-Burin, Raphaël, Ramdas, Meenu, Ramos, Eunice Pereira, Ray, Sudatta, Roberts, Paula, Sampedro, Jon, Sanders, Kelly T., Saray, Marzieh Hassanzadeh, Schmidt, Jennifer, Shanafield, Margaret, Siddiqui, Sauleh, Suriano, Micaela, Taniguchi, Makoto, Trabucco, Antonio, Tuninetti, Marta, Vinca, Adriano, Weeser, Björn, White, Dave D., Wild, Thomas B., Yadav, Kamini, Yogeswaran, Nithiyanandam, Yokohata, Tokuta, Yue, Qin, Global Ecohydrology and Sustainability, Environmental Sciences, Global Ecohydrology and Sustainability, Environmental Sciences, RS-Research Line Resilient social-ecological systems (part of LIRSS program), Department of Environmental Sciences, RS-Research Line Resilience (part of LIRS program), Department Science, and RS-Research Line Learning (part of LIRSS program)

Subjects

food, SUSTAINABLE DEVELOPMENT GOALS, water, DIVERSITY, TRADE-OFFS, GOVERNANCE, URBANIZATION, multi-sector, WATER NEXUS, OPPORTUNITIES, DESIGN, Environmental Science(all), nexus, energy, 570 Life sciences, biology, ENERGY-FOOD NEXUS, INTEGRATION, General Environmental Science

Abstract

Water, energy, and food are all essential components of human societies. Collectively, their respective resource systems are interconnected in what is called the “nexus”. There is growing consensus that a holistic understanding of the interdependencies and trade-offs between these sectors and other related systems is critical to solving many of the global challenges they present. While nexus research has grown exponentially since 2011, there is no unified, overarching approach, and the implementation of concepts remains hampered by the lack of clear case studies. Here, we present the results of a collaborative thought exercise involving 75 scientists and summarize them into 10 key recommendations covering: the most critical nexus issues of today, emerging themes, and where future efforts should be directed. We conclude that a nexus community of practice to promote open communication among researchers, to maintain and share standardized datasets, and to develop applied case studies will facilitate transparent comparisons of models and encourage the adoption of nexus approaches in practice.

Published

2022

3. Applying the FEW nexus concept at the local scale

Author

Salmon, AlexAnna, Karenzi, Justus, Wilber, Michelle, Schnabel, William, Penn, Henry, Loring, Philip, Dev, Subhabrata, Whitney, Erin, Huang, Daisy, Schmidt, Jennifer, Johnson, Barbara, Wies, Richard, Sambor, Daniel, Aggarwal, Srijan, Byrd, Amanda, Huntington, Henry, and Dotson, Aaron

Subjects

bepress|Engineering|Civil and Environmental Engineering, bepress|Engineering, bepress|Social and Behavioral Sciences, bepress|Social and Behavioral Sciences|Environmental Studies

Abstract

The food-energy-water (FEW) nexus describes interactions among domains that yield gains or tradeoffs when analyzed together rather than independently. In a project about renewable energy in rural Alaska communities, we applied this concept to examine the implications for sustainability and resilience. The FEW nexus provided a useful framework for identifying the cross-domain benefits of renewable energy, including gains in FEW security. However, other factors such as transportation and governance also play a major role in determining FEW security outcomes in rural Alaska. Here we show the implications of our findings for theory and practice. The precise configurations of and relationships among FEW nexus components vary by place and time, and the range of factors involved further complicates the ability to develop a functional, systematic FEW model. Instead, we suggest how the FEW nexus may be applied conceptually to identify and understand cross-domain interactions that contribute to long-term sustainability and resilience.

Published

2021