Probing the Capability of Future Direct-imaging Missions to Spectrally Constrain the Frequency of Earth-like Planets

The Astronomical Journal American Astronomical Society 161:3 (2021) 150

Authors:

Jade H Checlair, Geronimo L Villanueva, Benjamin PC Hayworth, Stephanie L Olson, Thaddeus D Komacek, Tyler D Robinson, Predrag Popović, Huanzhou Yang, Dorian S Abbot

TESS Observations of the WASP-121 b Phase Curve

The Astronomical Journal American Astronomical Society 161:3 (2021) 131

Authors:

Tansu Daylan, Maximilian N Günther, Thomas Mikal-Evans, David K Sing, Ian Wong, Avi Shporer, Prajwal Niraula, Julien de Wit, Daniel DB Koll, Vivien Parmentier, Tara Fetherolf, Stephen R Kane, George R Ricker, Roland Vanderspek, S Seager, Joshua N Winn, Jon M Jenkins, Douglas A Caldwell, David Charbonneau, Christopher E Henze, Martin Paegert, Stephen Rinehart, Mark Rose, Lizhou Sha, Elisa Quintana, Jesus Noel Villasenor

Hot Jupiters: Origins, Structure, Atmospheres

Journal of Geophysical Research Planets American Geophysical Union (AGU) 126:3 (2021)

Authors:

Jonathan J Fortney, Rebekah I Dawson, Thaddeus D Komacek

Hot Jupiters: Origins, Structure, Atmospheres

(2021)

Authors:

Jonathan J Fortney, Rebekah I Dawson, Thaddeus D Komacek

Agriculture's contribution to climate change and role in mitigation is distinct from predominantly fossil CO2-emitting sectors

Frontiers in Sustainable Food Systems Frontiers Media 4 (2021) 518039

Authors:

John Lynch, Michelle Cain, David Frame, Raymond Pierrehumbert

Abstract:

Agriculture is a significant contributor to anthropogenic global warming, and reducing agricultural emissions—largely methane and nitrous oxide—could play a significant role in climate change mitigation. However, there are important differences between carbon dioxide (CO2), which is a stock pollutant, and methane (CH4), which is predominantly a flow pollutant. These dynamics mean that conventional reporting of aggregated CO2-equivalent emission rates is highly ambiguous and does not straightforwardly reflect historical or anticipated contributions to global temperature change. As a result, the roles and responsibilities of different sectors emitting different gases are similarly obscured by the common means of communicating emission reduction scenarios using CO2-equivalence. We argue for a shift in how we report agricultural greenhouse gas emissions and think about their mitigation to better reflect the distinct roles of different greenhouse gases. Policy-makers, stakeholders, and society at large should also be reminded that the role of agriculture in climate mitigation is a much broader topic than climate science alone can inform, including considerations of economic and technical feasibility, preferences for food supply and land-use, and notions of fairness and justice. A more nuanced perspective on the impacts of different emissions could aid these conversations.