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1. Policy composition and adoption duration: Capturing conflict in the legislative process

   https://doi.org/10.1111/psj.12457  

   Chen, Catherine; Heikkila, Tanya; Weible, Christopher M.; Yordy, Jill; Yi, Hongtao; Berardo, Ramiro; Kagan, Jennifer (January 2022, Policy Studies Journal)

   Abstract The way in which public policies are composed may lead to conflicts that manifest in an extended policymaking duration. This paper explores the associations between policy composition and the relative duration for policies to be adopted in 15 U.S. state legislatures. We treat policy passage duration as an indicator of policy conflicts in the legislative process. We adapt the institutional grammar tool (IGT) to examine how 168 oil and gas development policies are composed and gauge the association between the content of these policies and the speed of their adoption. We find policies that are more stringent, contain more constitutive rules, target issues related to oil and gas operations or tax and finance take relatively longer to pass. These findings offer theoretical insights into the relationships between policy composition and policy adoption duration. They also provide methodological insights on measuring policy design components using a semi‐automated application of the IGT. 

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2. The first decade of scientific insights from the Deepwater Horizon oil release

   Kujawinski, E.B; Reddy, C.M.; Rodgers, R.P.; Thrash, J.C.; Valentine, D.L.; White, H.K. (April 2020, Nature reviews)

   null (Ed.)

   The 2010 Deepwater Horizon disaster remains the largest single accidental release of oil and gas into the ocean. During the 87- day release, scientists used oceanographic tools to collect wellhead oil and gas samples, interrogate microbial community shifts and activities, and track the chemical composition of dissolved oil in the ocean’s interior. In the decade since the disaster, field and laboratory investigations studied the physics and chemistry of irrupted oil and gas at high pressure and low temperature, the role of chemical dispersants in oil composition and microbial hydrocarbon degradation, and the impact of combined oil, gas and dispersants on the flora and fauna of coastal and deep- sea environments. The multi- faceted, multidisciplinary scientific response to the released oil, gas and dispersants culminated in a better understanding of the environmental factors that influence the short- term and long- term fate and transport of oil in marine settings. In this Review , we summarize the unique aspects of the Deepwater Horizon release and highlight the advances in oil chemistry and microbiology that resulted from novel applications of emerging technologies. We end with an outlook on the applicability of these findings to possible oil releases in future deep- sea drilling locations and newly- opened high- latitude shipping lanes. 

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3. The first decade of scientific insights from the Deepwater Horizon oil release

   Kujawinski, E.B; Reddy, C.M.; Rodgers, R.P.; Thrash, J.C.; Valentine, D.L.; White, H.K (April 2020, Nature reviews)

   null (Ed.)

   The 2010 Deepwater Horizon disaster remains the largest single accidental release of oil and gas into the ocean. During the 87-day release, scientists used oceanographic tools to collect wellhead oil and gas samples, interrogate microbial community shifts and activities, and track the chemical composition of dissolved oil in the ocean’s interior. In the decade since the disaster, field and laboratory investigations studied the physics and chemistry of irrupted oil and gas at high pressure and low temperature, the role of chemical dispersants in oil composition and microbial hydrocarbon degradation, and the impact of combined oil, gas and dispersants on the flora and fauna of coastal and deep-sea environments. The multi-faceted, multidisciplinary scientific response to the released oil, gas and dispersants culminated in a better understanding of the environmental factors that influence the short-term and long-term fate and transport of oil in marine settings. In this Review, we summarize the unique aspects of the Deepwater Horizon release and highlight the advances in oil chemistry and microbiology that resulted from novel applications of emerging technologies. We end with an outlook on the applicability of these findings to possible oil releases in future deep-sea drilling locations and newly-opened high-latitude shipping lanes. 

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4. Measurements of the Emission Rates of Nitrogen Oxides and Greenhouse Gases From the Prudhoe Bay Oil Field

   https://doi.org/10.1029/2024JD041963  

   Hajny, K D; Kaeser, R; Starn, T K; Stirm, B H; Brockway, N; Peterson, P K; Bigge, K; Simpson, W R; Pratt, K A; Fuentes, J D; et al (August 2025, Journal of Geophysical Research: Atmospheres)

   Abstract Oil and gas production regions are significant sources of greenhouse gases and reactive pollutants such as nitrogen oxides (NO_x) and volatile organic compounds. Research has also shown that methane (CH₄) emissions reported to the Environmental Protection Agency's (EPA) Greenhouse Gas Reporting Program (GHGRP) are generally underestimated. The Arctic accounted for 5.5% of global oil and gas production in 2022 but is estimated to contain significant undiscovered resources. The emitted NO_xand volatile organic compounds can impact the composition and chemistry of the Arctic atmosphere. The Prudhoe Bay Oil Field in Alaska is one of the 10 largest oil fields in the US and has been approved for significant development expansion. However, only one recent study has reported measurements of its greenhouse gas emissions. We estimate the emission rates for carbon dioxide (CO₂), CH₄, and NO_xfrom the Prudhoe Bay Oil Field during the spring of 2022 using airborne mass balance methods and emission ratios. We also discuss emissions per energy produced and show an increase over time, with values higher than the national average for oil and gas producing regions, though within uncertainties. Our estimates are lower than the NO_xemission estimate reported in the National Emissions Inventory (NEI), as seen in other oil and gas studies, but fall within the uncertainty range of the greenhouse gases reported in the GHGRP. This work provides a valuable snapshot of emissions before further expansion of extraction activities. 

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5. Governance of interdependent ecosystem services and common-pool resources

   https://doi.org/10.1016/j.landusepol.2023.106575  

   Tucker, Catherine M; Hribar, Mateja Šmid; Urbanc, Mimi; Bogataj, Nevenka; Gunya, Alexey; Rodela, Romina; Sigura, Maurizia; Piani, Lucia (April 2023, Land Use Policy)

   Environmental governance is recognized as a key issue in many natural and social sciences. It is highly relevant for ecosystem services and common-pool resources as well. Both fields overlap yet have typically been studied separately. Therefore, this study aimed a) to examine the emerging body of literature that incorporates concepts from both fields of research and considers governance challenges, and b) to identify policy tools and recommendations presented for addressing those challenges. The analysis of thirty-nine selected peer-review papers revealed the multiplicity of interacting governance challenges with three major categories: environmental, socioeconomic, and problems of governance itself. Governance is impeded by institutional mismatches, exclusion of local actors, corruption, and perverse policies. The proposed policy recommendations most often suggest changes in institutional arrangements and increasing scientific understanding. Meeting human needs, and increasing social equity and justice were recognized broadly as integral for improving governance, yet correlations among governance problems and solutions appear elusive. These findings extend theoretical reasoning, while carrying practical implications for policy, governance and environmental stewardship. The analysis implies that policies to improve human conditions will be key for improved environmental governance, but more research is needed to learn which types of policy recommendations prove successful given diverse local contexts. 

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