key: cord-0778353-qfvccpev authors: Alava, Juan José; Singh, Gerald G. title: Changing air pollution and CO(2) emissions during the COVID-19 pandemic: Lesson learned and future equity concerns of post-COVID recovery date: 2022-01-12 journal: Environ Sci Policy DOI: 10.1016/j.envsci.2022.01.006 sha: 7326ff8bc8cb9669fe49d51adbd90e0940a8e882 doc_id: 778353 cord_uid: qfvccpev COVID-19 is a severe acute respiratory syndrome caused by the novel coronavirus SARS-CoV-2. The COVID-19 pandemic lockdowns and quarantines have led to significant industrial slowdowns among the world’s major emitters of air pollutants, with resulting decreases to air pollution and greenhouse gas emissions in nations such as China, India and US, deemed to be major sources of global CO(2) emissions, as well. However, there are major concerns that these decreases in atmospheric pollution can be hampered as economies are reactivated. Historically, countries have weakened environmental legislations following economic slowdown to encourage renewed economic growth. Such a policy response now will likely have disproportionate impacts on global indigenous people and marginalized groups within countries, who have already faced disproportionate impacts from COVID-19 and environmental pollution. Our “new normal” remain nimble enough to allow us to fine-tune our interventions, research tools and solutions-oriented research to quickly enough to stay ahead of the pandemic trajectory in the face of air pollution and climate change. Societal and behavioral changes to reduce these anthropogenic cumulative stressors should be advocated, while prioritizing the public health of marginalized groups around the world, promoting new approaches to champion environmental health along with educational programs addressed to the population. Bold government decisions can restart economies while pre-empting future inequities and committing to environmental protection in an era of COVID-19 and global change. oriented research to quickly enough to stay ahead of the pandemic trajectory in the face of air pollution and climate change. Societal and behavioral changes to reduce these anthropogenic cumulative stressors should be advocated, while prioritizing the public health of marginalized groups around the world, promoting new approaches to champion environmental health along with educational programs addressed to the population. Bold government decisions can restart economies while pre-empting future inequities and committing to environmental protection in an era of COVID-19 and global change. Keywords: COVID-19; atmospheric pollution; CO2 emissions; pollutant management; climate change mitigation; solutions-oriented research; environmental and justice; indigenous people; The response to the 2020 COVID-19 pandemic led to massive lockdowns and quarantines, as well as slowdowns of human activity patterns, causing economy and industrial shutdowns and closures, with the aim to halt the spread of the virus worldwide, mainly in highly populated nations such as China, India, and United States. As a result of these events, The pandemic and air quality have become intertwined as quarantines, home isolation, and less land and air traffic have likely improved the ambient air quality in Europe, China, India and United greenhouse gas driving climate change, by some government agencies such as NASA, NOAA, and the European Space Agency (ESA) .. This should be a scientific issue of pressed importance and a research front of higher priority in academia and non-government organizations In fact, air pollution have substantially declined in the countries aforementioned, as detected by the NASA-Earth Observatory and ESA satellites' data during the pandemic (NASA, 2020a; NASA, 2020b) . Significant decreases in airborne nitrogen dioxide (NO 2 ) and aerosols (particulate matter: PM 2.5 or PM 10 ) over China (Bauwens et al., 2020; Chen et al., 2020; Shi and Brasseur, 2020; NASA., 2020a) and in India (Biswal et al., 2021; Ranjan et al., 2020; Singh et al., 2020; NASA., 2020a) were observed, while reduction in carbon monoxide (CO) and CO 2 emissions has been reported in New York, NY (McGrath, 2020) . In China, the mean tropospheric density of NO 2 (molecules/cm 2 ) has significantly dropped in early and mid-2020 as seen in Figure 1 . When comparing the NO 2 -tropospheric density on January 2020 (Figure 1a ,b) versus June 2020 (Figure 1c ,d), a significant reduction (>50%) was observed, which is also evident when contrasting the 2015-2019 average period for January to the average period 2015-2019 in June 2020 (Figure 1a ). At the fine-scale level, for instance, the NO 2 concentrations measured on February 10-25, 2020 (during the quarantine) compared to those observed on January 1-20, 2020 (before the quarantine) showed a significant decline in NO 2 concentrations in eastern and central China ( Figure S1 , supplementary information). Excluding the air pollution "holiday effect" resulting from the Chinese New Year, the decrease of NO 2 concentration was 10 to 30% lower in China relative to the average concentration reported in previous years (2005) (2006) (2007) (2008) (2009) (2010) (2011) (2012) (2013) (2014) (2015) (2016) (2017) (2018) (2019) at that time period (NASA, 2020a). Conversely, the NO 2 levels commenced to rebounding from late April to early May 2020; but mainly in December 2020 as the lockdowns in this nation ceased (Figure 1e ,f). Comparably, NO 2 levels along the northeastern coast of United States significantly plummeted in average by 30% across this region in March 2020 relative to the NO 2 mean concentrations (molecules/cm 2 ) of the 2015-2019 period ( Figure S2 ). Compared to the NO 2 average density levels over the 2015-2019 period for January and the levels in January 2020 ( Figure 2a,b) , a reduction of ~50% was projected during June 2020 (Figure2c, d) . Similar to the NO 2 density pattern observed in China, NO 2 levels commenced to rebound by December 2020 (Figure 2e,f). NO 2 is an air pollutant primarily emitted from burning fossil fuels (e.g., diesel, gasoline, coal) and can presumably be an indicator linked to fossil fuels' reductions both in the main polluting countries in Asia (i.e., India and China) and North America, i.e., United States (Bauwens et al., 2020; Gkatzelis et al. 2021) . The reduction in the levels of NO 2 was not the only case of air pollution changes. Airborne particles dramatically plummeted over India from 2016 to 2020 (Figure 3 ), considering the March 31-April 5 period of each year, as measured by the aerosol optical depth (AOD), i.e., a satellite measurement of aerosols optical thickness to measure how visible and infrared light is absorbed or reflected by airborne particles as it travels through the atmosphere (NASA, 2020b). Figure 3 Despite the global decline of many fossil fuel/carbon burning-activities in urban and industrial areas due to COVID-19, changes in CO 2 emissions are not evident since CO 2 levels are influenced by the variability of plant soil carbon cycles (i.e., bio-geochemical cycling) in tandem with the nature of the carbon budget, i.e., atmospheric CO 2 concentrations will continue to increase unless annual emissions are set to net-zero (Ehlert and Zickfeld, 2017; Evans, 2020; Le Quéré et al., 2020; Matthews et al., 2017) . However, CO 2 emission changes are expected as the year 2020 evolves (Evans, 2020; NOAA, 2020a; NOAA, 2020b) . For instance, a drop equivalent to 5.5% of 2019-global total emissions has been projected in 2020 (Evans, 2020) , while a more concerted assessment, considering COVID-19 forced confinement, projected an annual CO 2 emission reduction by 4% if prepandemic conditions return by mid-June 2020 or by to 7% if some restrictions remain worldwide until the end of 2020 (Le Quéré et al., 2020) . However, the global emissions of CO 2 must drop by 7.6% annually (Evans, 2020; UNEP, 2019) in order to do not exceed the 1.5°C global temperature above preindustrial levels as this is the threshold indicating a temperature limit within the most dangerous climate threats (IPCC, 2018; Le Quéré et al., 2020) . Nonetheless, caution should be considered for the apparent reduction and plausible mitigation in air pollution observed at the time of the ongoing COVID-19 pandemic as questions remains on whether the changes in air pollution were actually related to lockdown measures without taking into account that temporal and seasonal variations in emissions and meteorology (Barré et al., 2021; Putaud et al., 2021) . Thus, the importance and influence of temporal weather variability in influencing air quality at the time of such estimates and between the baseline reference and lockdown periods is of paramount (Barré et al., 2021) to disentangling meteorological and emission variability when interpreting the emission trends over time. In the light of these data and observations, questions linger as to whether the global lockdowns and economic slowdowns due to the COVID-19 pandemic can have a lasting impact to reducing atmospheric pollution and greenhouse gas (GHG) emissions. J o u r n a l P r e -p r o o f Observatory https://earthobservatory.nasa.gov/images/146596/airborne-particle-levels-plummetin-northern-india Though the air pollutants and GHG emissions have been significantly reduced from the direct effects of national quarantines, these reductions may be extremely short lived. The second order effects of the COVID-19 pandemic and its shutdown may lead to weakened environmental legislation in the world's top emitters (which happen to be some of the world's largest economies) in order to accelerate economic growth. Measures to curtail environmental legislation can be long-lasting and offset any pollution reductions that occurred during lockdown. For example, the United States has rolled back environmental regulations and is interested in stimulating the fossil fuel industry (Rosenbloom and Markard, 2020) . For example, major oil exporting countries in North America as well as emerging economies have locked-in further support for fossil-fuel industries, providing subsidies and bailouts for these industries (Quitzow et al., 2021) , prompting a stimulus spending that will negatively impact the environment, as highlighted by the World Resource Institute (Dagnet and Jaeger, 2020) . Indeed, in an analysis of the stimulus spending across 18 nations, 14 were founds to have contributed to existing industries that will likely worsen environmental outcomes, including subsidies and deregulation, at much higher rates than funding to "green" infrastructures and industries (Dagnet and Jaeger, 2020; VividEconomics, 2020) . Reviewing the history of environmental policy changes after economic downturns and recessions shows that many nations (including major emitters like USA, UK, Canada, and Australia) slashed environmental legislation and streamlined environmental impact assessment (EIA) processes, allowing more development projects to proceed without EIA and limiting public involvement and consultation on development projects (Bond et al., 2014) . The political and economic pressures to opportunistically de-emphasize environmental legislation and tools have been documented around the world across time (Bond et al., 2020) . While there are some calls to emerge from COVID-lockdowns embracing pro-environmental development policies such as calls to affirm "Green Deal" approaches (Rosenbloom and Markard, 2020) , historical accounts suggest that post-COVID economic recoveries that are environmentally sustainable are not likely (Bond et al., 2014; Bond et al., 2020) . However, there are cases during this era of stimulus spending that are attempting to seriously address environmental sustainability. Canada and France, for example, have attached environmental conditions to bailing out aviation and automobile manufacturing, and other large employers, while Germany and South Korea have announced aggressive plans for transitioning industries towards low emission, such in electricity and transportation sectors, and the "Next J o u r n a l P r e -p r o o f Generation EU" recovery package includes measures to increase sustainability of agriculture, energy, and transportation (VividEconomics, 2020). Nations not dependent on fossil fuels have also deployed greater fiscal measures to respond to the COVID-19 crisis, allowing them to take up opportunities to diversify their economies (Quitzow et al., 2021) . Interest in "net-zero" carbon policies across nations has also increased (with a recent estimate at 61% of nations with net-zero commitments), as these policies promise to use technology to offset emissions from existing industries. Similarly, many nations are promising to develop nature-based solutions to sequester carbon. Conversely, many of the net-zero policies are vague and only 20% meet minimum quality criteria, and many technologies and offsetting strategies are untested and vague (Black et al., 2021) . Similarly, recent research suggests that nature-based solutions offer limited (but important) potential, especially if implemented early and designed well to prevent reversals from being a carbon sink to a carbon source (Girardin et al., 2021) . While the current post-COVID recovery plans may be "building back better" compared to past recoveries from recessions, they may not be enough to achieve global sustainability goals. Post-COVID recovery strategies also have implications for international health and cultural equity considerations. Internationally, some estimates place developing and least Environmental and social injustice is also prevalent within many countries, including the United States, as racial, inequity and ethnic disparities result in greater exposure to harmful environmental pollutants (Landrigran et al., 2018) . While COVID has undoubtedly relaxed some of the exposures of these vulnerable groups to pollutants, a post-COVID recovery that maintains low levels of emissions would dampen these pollution and health inequities without having to suffer a pandemic to achieve it. However, promoting post-COVID recovery strategies that weaken environmental legislation will undoubtedly disproportionately affect vulnerable groups like ethnic minorities, who have also been worse affected by COVID (Liverpool, 2020) . Disadvantaged groups within and across countries are simultaneously more vulnerable to COVID-19 infection and deaths, because of their remote locations and lack of access to health infrastructures (Patel et al., 2020) , Importantly, during the COVID-19 pandemic and through the process of recovery, progress across the Sustainable Development Goals (SDGs) has declined, and some of the gains made before the pandemic have reversed (Mukherjee and Bonin, 2020; J o u r n a l P r e -p r o o f Thus, improved air quality along with climate change mitigation and adaptation should be urgently implemented and/or continued fostered and implemented by developed and developing nations to lessen the exacerbation of respiratory diseases and spread of pathogenic infections by strengthening public health, ultimately reducing the COVID-19 pandemic severity (Afshari, 2020; IPCC, 2018; WHO, 2016) . Acute air pollution and climate change are two global anthropogenic stressors negatively affecting human health in the long-term (WHO, 2016 (WHO, , 2018 Smith et al., 2014) . While ambient air pollution by particulate matter (PM 2.5 ) is responsible for an estimated >4 million deaths per year (Cohen et al., 2017) , the COVID-19 pandemic has already claimed the lives of >4.4 million people out of ~207 million confirmed cases (mortality rate of 2%) in tandem with >4.6 billion vaccine doses administered at the global level by mid-August 2021, according to the interactive database to track COVID-19 in real time from the John Hopkins University's Coronavirus Resource Centre (https://coronavirus.jhu.edu/map.html; Dong et al., 2020) . While it was anticipated and now very well known that air pollution was reduced after the lockdown, air pollutant emissions are rebounding to normal levels once developed and developing nations are gradually returning to normalcy and re-activating their economic activities. As we write this commentary, the ongoing pandemic with a new, highly infectious and transmissible variant, i.e., the B.1.617.2 (Delta) variant (Lopez Bernal et al., 2021; Mallapaty, 2021 ) along with the current reopening of socio-economic and industrial activities in many J o u r n a l P r e -p r o o f developed nations will increase not only the virus transmission, but airborne pollutants, counteracting some of the atmospheric pollution and GHG emissions reached during the COVID-19 global lockdown (Le Quéré et al., 2020) . Despite the fact that significant reductions in air pollution emissions were detected by the satellite data aforementioned, it is still insufficient to offset climate change's impacts on public health, biodiversity and oceans. The lesson learned from the COVID-19 effect on atmospheric pollution can serve as a compelling reminder that even if all CO 2 or GHG emissions are mitigated and ceased today, nations will still have to proactively implement strategic actions to curtail and eliminate airborne pollution in tandem with climate change solutions to reduce emissions and sequester carbon for years to come. Marginalized groups around the world living in urban, suburban, rural, and remote areas as well as indigenous communities from developed and developing countries have common and unique health issues in the face of air -pollution, climate change and COVID-19 (i.e., environmental and health education, food security, hygiene and health prevention measures) and in accessing the environmental protection and health care that they need (e.g., lack of pollution abatement and environmental justice, testing, medical treatment and therapy). Prioritizing the environmental health, promoting new approaches to protect human health, diffusing public messaging and health education programs are of paramount importance in an era of COVID-19, pollution and climate change. In this context, developing policy and research programs that are nimble enough to allow us to fine-tune our interventions and research tools to quickly stay ahead of the pandemic trajectory to combat and mitigate pollution and climate change is important. New collaborative research frameworks are vital to ensure that the health needs of people living in cities, rural and remote communities can be assisted with appropriate access to health education program, and ground-breaking technological research. A call out addressing grand challenges in environmental science research on this topic to investigate the fate and behaviors of aerosols, CO 2 , and several others atmospheric pollutants (e.g., volatile persistent organic pollutants [POPs] , gaseous elemental mercury vapor [Hg 0 ] and inorganic divalent mercury [Hg 2+ ]), as well as additional greenhouse gases (e.g., atmospheric methane [CH 4 ], Nitrous Oxide [N 2 O], Sulpher Hexaflouride, [SF 6 ]) is also urgently needed as the COVID-19 progresses. Solutions-oriented research and precautionary approaches will be indeed needed to combat the cumulative impact and health effects of atmospheric pollution, climate change and global epidemics of emerging infectious respiratory diseases. The current pandemic is teaching us the ultimate need for behavioral and innovative changes at the individual, community and corporate/industrial levels and that we may be missing a great opportunity, if precautionary actions to prevent, and reduce air pollution and CO 2 emissions are not implemented now. Carbon emissions will be on the rise and surging back as COVID-19 lockdowns are uplift or relaxed amidst the re-opening of economics and industrial activities, mainly in developed nations. Meanwhile, pending the end of this pandemic, researching governments' decisions on how to reactivate economies in an environmentally sustainable and socially equitable way will be crucial to keep locking down carbon emissions and reduce and eliminate air pollution, which are essential for global environmental health inequity and justice, the protection of biodiversity and the conservation of planet Earth. 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World Health Organization declare the following financial interests/personal relationships which may be considered as potential competing interests The author thanks the Nippon Foundation for providing research funding through the Ocean including the images used in this article, freely available for re-publication or re-use.