K
Katharine J. Mach
Researcher at University of Miami
Publications - 118
Citations - 17056
Katharine J. Mach is an academic researcher from University of Miami. The author has contributed to research in topics: Climate change & Global warming. The author has an hindex of 37, co-authored 101 publications receiving 13738 citations. Previous affiliations of Katharine J. Mach include Cornell University & Carnegie Institution for Science.
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Managing the Risks of Extreme Events and Disasters to Advance Climate Change Adaptation. A Special Report of Working Groups I and II of IPCC Intergovernmental Panel on Climate Change
Christopher B. Field,Vicente Barros,Thomas F. Stocker,Qin Dahe,David Jon Dokken,Kristie L. Ebi,Michael D. Mastrandrea,Katharine J. Mach,Gian-Kasper Plattner,Simon K. Allen,Melinda Tignor,Pauline M. Midgley +11 more
Climate Change 2014: Impacts,Adaptation, and Vulnerability. Part A: Global and Sectoral Aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change
Christopher B. Field,Vicente Barros,Michael D. Mastrandrea,Katharine J. Mach,Abdrabo, , Mohamed A.-K.,W. Neil Adger,Yury A. Anokhin,Oleg A. Anisimov,Douglas J. Arent,Jonathon Barnett,Virginia Burkett,Rongshuo Cai,Monalisa Chatterjee,Stewart J. Cohen,Cramer, ,Wolfgang,Purnamita Dasgupta,Debra J. Davidson,Fatima Denton,Petra Döll,Kirstin Dow,Yasuaki Hijioka,Ove Hoegh-Guldberg +21 more
Climate change 2014: impacts, adaptation, and vulnerability - Part B: regional aspects - Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change
Vicente Barros,Christopher B. Field,D. J. Dokke,Michael D. Mastrandrea,Katharine J. Mach,T. E. Bilir,Monalisa Chatterjee,Kristie L. Ebi,Y. O. Estrada,Robert C Genova,B. Girma,E. S. Kissel,A. N. Levy,S. MacCracken,P. R. Mastrandrea,L. L. White +15 more
Abstract: ion and from groundwater resources (medium confidence), in the context of increased demand (from agriculture, energy and industry, and domestic use) and cross-sectoral implications that are not fully understood. {23.4.3, 23.9.1} Some adaptation is possible through uptake of more water-efficient technologies and water-saving strategies. {23.4.3, 23.7.2} Climate change will change the geographic distribution of wine grape varieties (high confidence) and this will reduce the value of wine products and the livelihoods of local wine communities in Southern and Continental Europe (medium confidence) and increase production in Northern Europe (low confidence). {23.4.1, 23.3.5, 23.5.4; Box 23-2} Some adaptation is possible through technologies and good practice. {Box 23-2} Climate warming will increase forest productivity in Northern Europe (medium confidence), {23.4.4} although damage from pests and diseases in all sub-regions will increase due to climate change (high confidence). {23.4.4} Wildfire risk in Southern Europe (high confidence) and damages from storms in Central Europe (low confidence) may also increase due to climate change. {23.4.4} Climate change is likely to cause ecological and socioeconomic damages from shifts in forest tree species range (from southwest to northeast) (medium confidence), and in pest species distributions (low confidence). {23.4.4} Forest management measures can enhance ecosystem resilience (medium confidence).
Journal ArticleDOI
Net-zero emissions energy systems
Steven J. Davis,Nathan S. Lewis,Matthew R. Shaner,Sonia Aggarwal,Douglas J. Arent,Douglas J. Arent,Inês Azevedo,Sally M. Benson,Thomas H. Bradley,Jack Brouwer,Yet-Ming Chiang,Christopher T. M. Clack,Armond Cohen,Stephen J. Doig,Jae Edmonds,Paul S. Fennell,Paul S. Fennell,Christopher B. Field,Bryan Hannegan,Bri-Mathias Hodge,Bri-Mathias Hodge,Bri-Mathias Hodge,Martin I. Hoffert,Eric Ingersoll,Paulina Jaramillo,Klaus S. Lackner,Katharine J. Mach,Michael D. Mastrandrea,Joan M. Ogden,Per F. Peterson,Daniel L. Sanchez,Daniel Sperling,Joseph Stagner,Jessika E. Trancik,Jessika E. Trancik,Chi Jen Yang,Ken Caldeira +36 more
TL;DR: In this paper, the authors examine barriers and opportunities associated with these difficult-to-decarbonize services and processes, including possible technological solutions and research and development priorities, and examine the use of existing technologies to meet future demands for these services without net addition of CO2 to the atmosphere.
Net-zero Emissions Energy Systems
Steven J. Davis,Nathan S. Lewis,Matthew R. Shaner,Sonia Aggarwal,Douglas J. Arent,Inês Azevedo,Sally M. Benson,Thomas H. Bradley,Jack Brouwer,Yet-Ming Chiang,Christopher T. M. Clack,Armond Cohen,Stephen J. Doig,Jae Edmonds,Paul S. Fennell,Christopher B. Field,Bryan Hannegan,Bri-Mathias Hodge,Martin I. Hoffert,Eric Ingersoll,Paulina Jaramillo,Klaus S. Lackner,Katharine J. Mach,Michael D. Mastrandrea,Joan M. Ogden,Per F. Peterson,Daniel L. Sanchez,Daniel Sperling,Joseph Stagner,Jessika E. Trancik,Chi Jen Yang,Ken Caldeira +31 more
TL;DR: The special challenges associated with an energy system that does not add any CO2 to the atmosphere (a net-zero emissions energy system) are reviewed and prominent technological opportunities and barriers for eliminating and/or managing emissions related to the difficult-to-decarbonize services are discussed.