Project acronym ACCI
Project Atmospheric Chemistry-Climate Interactions
Researcher (PI) John Adrian Pyle
Host Institution (HI) THE CHANCELLOR MASTERS AND SCHOLARS OF THE UNIVERSITY OF CAMBRIDGE
Call Details Advanced Grant (AdG), PE10, ERC-2010-AdG_20100224
Summary Global change involves a large number of complex interactions between various earth system processes. In the atmosphere, one component of the earth system, there are crucial feedbacks between physical, chemical and biological processes. Thus many of the drivers of climate change depend on chemical processes in the atmosphere including, in addition to ozone and water vapour, methane, nitrous oxide, the halocarbons as well as a range of inorganic and organic aerosols. The link between chemistry and climate is two-way and changes in climate can influence atmospheric chemistry processes in a variety of ways.
Previous studies have looked at these interactions in isolation but the time is now right for more comprehensive studies. The crucial contribution that will be made here is in improving our understanding of the processes within this complex system. Process understanding has been the hallmark of my previous work. The earth system scope here will be ambitiously wide but with a similar drive to understand fundamental processes.
The ambitious programme of research is built around four interrelated questions using new state-of-the-art modelling tools: How will the composition of the stratosphere change in the future, given changes in the concentrations of ozone depleting substances and greenhouse gases? How will these changes in the stratosphere affect tropospheric composition and climate? How will the composition of the troposphere change in the future, given changes in the emissions of ozone precursors and greenhouse gases? How will these changes in the troposphere affect the troposphere-stratosphere climate system?
ACCI will break new ground in bringing all of these questions into a single modelling and diagnostic framework, enabling interrelated questions to be answered which should radically improve our overall projections for global change.
Summary
Global change involves a large number of complex interactions between various earth system processes. In the atmosphere, one component of the earth system, there are crucial feedbacks between physical, chemical and biological processes. Thus many of the drivers of climate change depend on chemical processes in the atmosphere including, in addition to ozone and water vapour, methane, nitrous oxide, the halocarbons as well as a range of inorganic and organic aerosols. The link between chemistry and climate is two-way and changes in climate can influence atmospheric chemistry processes in a variety of ways.
Previous studies have looked at these interactions in isolation but the time is now right for more comprehensive studies. The crucial contribution that will be made here is in improving our understanding of the processes within this complex system. Process understanding has been the hallmark of my previous work. The earth system scope here will be ambitiously wide but with a similar drive to understand fundamental processes.
The ambitious programme of research is built around four interrelated questions using new state-of-the-art modelling tools: How will the composition of the stratosphere change in the future, given changes in the concentrations of ozone depleting substances and greenhouse gases? How will these changes in the stratosphere affect tropospheric composition and climate? How will the composition of the troposphere change in the future, given changes in the emissions of ozone precursors and greenhouse gases? How will these changes in the troposphere affect the troposphere-stratosphere climate system?
ACCI will break new ground in bringing all of these questions into a single modelling and diagnostic framework, enabling interrelated questions to be answered which should radically improve our overall projections for global change.
Max ERC Funding
2 496 926 €
Duration
Start date: 2011-05-01, End date: 2017-04-30
Project acronym ACCLAIM
Project Aerosols effects on convective clouds and climate
Researcher (PI) Philip Stier
Host Institution (HI) THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD
Call Details Starting Grant (StG), PE10, ERC-2011-StG_20101014
Summary Clouds play a key role in the climate system. Small anthropogenic perturbations of the cloud system potentially have large radiative effects. Aerosols perturb the global radiation budget directly, by scattering and absorption, as well as indirectly, by the modification of cloud properties and occurrence. The applicability of traditional conceptual models of indirect aerosol effects to convective clouds is disputed as cloud dynamics complicates the picture.
Strong evidence for numerous aerosol effects on convection has been established in individual disciplines: through remote sensing and in-situ observations as well as by cloud resolving and global modelling. However, a coherent scientific view of the effects of aerosols on convection has yet to be established.
The primary objective of ACCLAIM is to recast the effects of aerosols on convective clouds as basis for improved global estimates of anthropogenic climate effects. Specific objectives include: i) to unravel the governing principles of aerosol effects on convective clouds; ii) provide quantitative constraints on satellite-retrieved relationships between convective clouds and aerosols; and ultimately iii) to enable global climate models to represent the full range of anthropogenic climate perturbations and quantify the climate response to aerosol effects on convective clouds.
I have developed the research strategy of ACCLAIM to overcome disciplinary barriers in this frontier research area and seek five years of funding to establish an interdisciplinary, physics focused, research group consisting of two PostDocs, two PhD students and myself. ACCLAIM will be centred around global aerosol-convection climate modelling studies, complemented by research constraining aerosol-convection interactions through remote sensing and a process focused research strand, advancing fundamental understanding and global model parameterisations through high resolution aerosol-cloud modelling in synergy with in-situ observations.
Summary
Clouds play a key role in the climate system. Small anthropogenic perturbations of the cloud system potentially have large radiative effects. Aerosols perturb the global radiation budget directly, by scattering and absorption, as well as indirectly, by the modification of cloud properties and occurrence. The applicability of traditional conceptual models of indirect aerosol effects to convective clouds is disputed as cloud dynamics complicates the picture.
Strong evidence for numerous aerosol effects on convection has been established in individual disciplines: through remote sensing and in-situ observations as well as by cloud resolving and global modelling. However, a coherent scientific view of the effects of aerosols on convection has yet to be established.
The primary objective of ACCLAIM is to recast the effects of aerosols on convective clouds as basis for improved global estimates of anthropogenic climate effects. Specific objectives include: i) to unravel the governing principles of aerosol effects on convective clouds; ii) provide quantitative constraints on satellite-retrieved relationships between convective clouds and aerosols; and ultimately iii) to enable global climate models to represent the full range of anthropogenic climate perturbations and quantify the climate response to aerosol effects on convective clouds.
I have developed the research strategy of ACCLAIM to overcome disciplinary barriers in this frontier research area and seek five years of funding to establish an interdisciplinary, physics focused, research group consisting of two PostDocs, two PhD students and myself. ACCLAIM will be centred around global aerosol-convection climate modelling studies, complemented by research constraining aerosol-convection interactions through remote sensing and a process focused research strand, advancing fundamental understanding and global model parameterisations through high resolution aerosol-cloud modelling in synergy with in-situ observations.
Max ERC Funding
1 429 243 €
Duration
Start date: 2011-09-01, End date: 2017-02-28
Project acronym ACRCC
Project Understanding the atmospheric circulation response to climate change
Researcher (PI) Theodore Shepherd
Host Institution (HI) THE UNIVERSITY OF READING
Call Details Advanced Grant (AdG), PE10, ERC-2013-ADG
Summary Computer models based on known physical laws are our primary tool for predicting climate change. Yet the state-of-the-art models exhibit a disturbingly wide range of predictions of future climate change, especially when examined at the regional scale, which has not decreased as the models have become more comprehensive. The reasons for this are not understood. This represents a basic challenge to our fundamental understanding of climate.
The divergence of model projections is presumably related to systematic model errors in the large-scale fluxes of heat, moisture and momentum that control regional aspects of climate. That these errors stubbornly persist in spite of increases in the spatial resolution of the models suggests that they are associated with errors in the representation of unresolved processes, whose effects must be parameterised.
Most attention in climate science has hitherto focused on the thermodynamic aspects of climate. Dynamical aspects, which involve the atmospheric circulation, have received much less attention. However regional climate, including persistent climate regimes and extremes, is strongly controlled by atmospheric circulation patterns, which exhibit chaotic variability and whose representation in climate models depends sensitively on parameterised processes. Moreover the dynamical aspects of model projections are much less robust than the thermodynamic ones. There are good reasons to believe that model bias, the divergence of model projections, and chaotic variability are somehow related, although the relationships are not well understood. This calls for studying them together.
My proposed research will focus on this problem, addressing these three aspects of the atmospheric circulation response to climate change in parallel: (i) diagnosing the sources of model error; (ii) elucidating the relationship between model error and the spread in model projections; (iii) understanding the physical mechanisms of atmospheric variability.
Summary
Computer models based on known physical laws are our primary tool for predicting climate change. Yet the state-of-the-art models exhibit a disturbingly wide range of predictions of future climate change, especially when examined at the regional scale, which has not decreased as the models have become more comprehensive. The reasons for this are not understood. This represents a basic challenge to our fundamental understanding of climate.
The divergence of model projections is presumably related to systematic model errors in the large-scale fluxes of heat, moisture and momentum that control regional aspects of climate. That these errors stubbornly persist in spite of increases in the spatial resolution of the models suggests that they are associated with errors in the representation of unresolved processes, whose effects must be parameterised.
Most attention in climate science has hitherto focused on the thermodynamic aspects of climate. Dynamical aspects, which involve the atmospheric circulation, have received much less attention. However regional climate, including persistent climate regimes and extremes, is strongly controlled by atmospheric circulation patterns, which exhibit chaotic variability and whose representation in climate models depends sensitively on parameterised processes. Moreover the dynamical aspects of model projections are much less robust than the thermodynamic ones. There are good reasons to believe that model bias, the divergence of model projections, and chaotic variability are somehow related, although the relationships are not well understood. This calls for studying them together.
My proposed research will focus on this problem, addressing these three aspects of the atmospheric circulation response to climate change in parallel: (i) diagnosing the sources of model error; (ii) elucidating the relationship between model error and the spread in model projections; (iii) understanding the physical mechanisms of atmospheric variability.
Max ERC Funding
2 489 151 €
Duration
Start date: 2014-03-01, End date: 2020-02-29
Project acronym ACTOMYOSIN RING
Project Understanding Cytokinetic Actomyosin Ring Assembly Through Genetic Code Expansion, Click Chemistry, DNA origami, and in vitro Reconstitution
Researcher (PI) Mohan Balasubramanian
Host Institution (HI) THE UNIVERSITY OF WARWICK
Call Details Advanced Grant (AdG), LS3, ERC-2014-ADG
Summary The mechanism of cell division is conserved in many eukaryotes, from yeast to man. A contractile ring of filamentous actin and myosin II motors generates the force to bisect a mother cell into two daughters. The actomyosin ring is among the most complex cellular machines, comprising over 150 proteins. Understanding how these proteins organize themselves into a functional ring with appropriate contractile properties remains one of the great challenges in cell biology. Efforts to generate a comprehensive understanding of the mechanism of actomyosin ring assembly have been hampered by the lack of structural information on the arrangement of actin, myosin II, and actin modulators in the ring in its native state. Fundamental questions such as how actin filaments are assembled and organized into a ring remain actively debated. This project will investigate key issues pertaining to cytokinesis in the fission yeast Schizosaccharomyces pombe, which divides employing an actomyosin based contractile ring, using the methods of genetics, biochemistry, cellular imaging, DNA origami, genetic code expansion, and click chemistry. Specifically, we will (1) attempt to visualize actin filament assembly in live cells expressing fluorescent actin generated through synthetic biological approaches, including genetic code expansion and click chemistry (2) decipher actin filament polarity in the actomyosin ring using total internal reflection fluorescence microscopy of labelled dimeric and multimeric myosins V and VI generated through DNA origami approaches (3) address when, where, and how actin filaments for cytokinesis are assembled and organized into a ring and (4) reconstitute actin filament and functional actomyosin ring assembly in permeabilized spheroplasts and in supported bilayers. Success in the project will provide major insight into the mechanism of actomyosin ring assembly and illuminate principles behind cytoskeletal self-organization.
Summary
The mechanism of cell division is conserved in many eukaryotes, from yeast to man. A contractile ring of filamentous actin and myosin II motors generates the force to bisect a mother cell into two daughters. The actomyosin ring is among the most complex cellular machines, comprising over 150 proteins. Understanding how these proteins organize themselves into a functional ring with appropriate contractile properties remains one of the great challenges in cell biology. Efforts to generate a comprehensive understanding of the mechanism of actomyosin ring assembly have been hampered by the lack of structural information on the arrangement of actin, myosin II, and actin modulators in the ring in its native state. Fundamental questions such as how actin filaments are assembled and organized into a ring remain actively debated. This project will investigate key issues pertaining to cytokinesis in the fission yeast Schizosaccharomyces pombe, which divides employing an actomyosin based contractile ring, using the methods of genetics, biochemistry, cellular imaging, DNA origami, genetic code expansion, and click chemistry. Specifically, we will (1) attempt to visualize actin filament assembly in live cells expressing fluorescent actin generated through synthetic biological approaches, including genetic code expansion and click chemistry (2) decipher actin filament polarity in the actomyosin ring using total internal reflection fluorescence microscopy of labelled dimeric and multimeric myosins V and VI generated through DNA origami approaches (3) address when, where, and how actin filaments for cytokinesis are assembled and organized into a ring and (4) reconstitute actin filament and functional actomyosin ring assembly in permeabilized spheroplasts and in supported bilayers. Success in the project will provide major insight into the mechanism of actomyosin ring assembly and illuminate principles behind cytoskeletal self-organization.
Max ERC Funding
2 863 705 €
Duration
Start date: 2015-11-01, End date: 2020-10-31
Project acronym AFRIGOS
Project African Governance and Space: Transport Corridors, Border Towns and Port Cities in Transition
Researcher (PI) Paul Christopher Nugent
Host Institution (HI) THE UNIVERSITY OF EDINBURGH
Call Details Advanced Grant (AdG), SH2, ERC-2014-ADG
Summary AFRIGOS investigates the process of 'respacing' Africa, a political drive towards regional and continental integration, on the one hand, and the re-casting of Africa's engagement with the global economy, on the other. This is reflected in unprecedented levels of investment in physical and communications infrastructure, and the outsourcing of key functions of Customs, Immigration and security agencies. AFRIGOS poses the question of how far respacing is genuinely forging institutions that are facilitating or obstructing the movement of people and goods; that are enabling or preventing urban and border spaces from being more effectively and responsively governed; and that take into account the needs of African populations whose livelihoods are rooted in mobility and informality. The principal research questions are approached through a comparative study of port cities, border towns and other strategic nodes situated along the busiest transport corridors in East, Central, West and Southern Africa. These represent sites of remarkable dynamism and cosmopolitanism, which reflects their role in connecting African urban centres to each other and to other global cities.
AFRIGOS considers how governance 'assemblages' are forged at different scales and is explicitly comparative. It works through 5 connected Streams that address specific questions: 1. AGENDA-SETTING is concerned with policy (re-)formulation. 2. PERIPHERAL URBANISM examines governance in border towns and port cities. 3. BORDER WORKERS addresses everyday governance emerging through the interaction of officials and others who make their livelihoods from the border. 4. CONNECTIVE INFRASTRUCTURE looks as the transformative effects of new technologies. 5. PEOPLE & GOODS IN MOTION traces the passage of people and goods and the regimes of regulation to which they are subjected. AFRIGOS contributes to interdisciplinary research on borderland studies, multi-level governance and the everyday state.
Summary
AFRIGOS investigates the process of 'respacing' Africa, a political drive towards regional and continental integration, on the one hand, and the re-casting of Africa's engagement with the global economy, on the other. This is reflected in unprecedented levels of investment in physical and communications infrastructure, and the outsourcing of key functions of Customs, Immigration and security agencies. AFRIGOS poses the question of how far respacing is genuinely forging institutions that are facilitating or obstructing the movement of people and goods; that are enabling or preventing urban and border spaces from being more effectively and responsively governed; and that take into account the needs of African populations whose livelihoods are rooted in mobility and informality. The principal research questions are approached through a comparative study of port cities, border towns and other strategic nodes situated along the busiest transport corridors in East, Central, West and Southern Africa. These represent sites of remarkable dynamism and cosmopolitanism, which reflects their role in connecting African urban centres to each other and to other global cities.
AFRIGOS considers how governance 'assemblages' are forged at different scales and is explicitly comparative. It works through 5 connected Streams that address specific questions: 1. AGENDA-SETTING is concerned with policy (re-)formulation. 2. PERIPHERAL URBANISM examines governance in border towns and port cities. 3. BORDER WORKERS addresses everyday governance emerging through the interaction of officials and others who make their livelihoods from the border. 4. CONNECTIVE INFRASTRUCTURE looks as the transformative effects of new technologies. 5. PEOPLE & GOODS IN MOTION traces the passage of people and goods and the regimes of regulation to which they are subjected. AFRIGOS contributes to interdisciplinary research on borderland studies, multi-level governance and the everyday state.
Max ERC Funding
2 491 364 €
Duration
Start date: 2016-01-01, End date: 2020-12-31
Project acronym AISMA
Project An anthropological investigation of muscular politics in South Asia
Researcher (PI) Lucia Michelutti
Host Institution (HI) UNIVERSITY COLLEGE LONDON
Call Details Starting Grant (StG), SH2, ERC-2011-StG_20101124
Summary Over the past decade, the media, international organisations, as well as policy-making bodies have voiced increasing concern about a growing overlap between the criminal and political spheres in South Asia. Many 'criminal politicians' are accused not simply of embezzlement, but of burglary, kidnapping and murder, so that the observed political landscape emerges not only as a 'corrupt', but also a highly violent sphere. This project is a collaborative and cross-national ethnographic study of the criminalisation of politics in India, Pakistan and Bangladesh. Bringing together local-level investigation, surveys and historical analysis, the project will produce comprehensive political ethnographies in sixteen sites across the subcontinent, providing empirical material and theoretical directives for further charting of the virtually unexplored terrain of extra-legal muscular politics in the region. Central to the proposed programme of research are the following interrelated objectives: 1) To further develop the method of collaborative political ethnography by designing, collecting and producing case studies which will allow us to write thematically across sites; 2) To generate policy relevant research in the fields of security, conflict, democracy and development; 3) To produce capability by forging an international network of scholars on issues related to democratisation, violence, crime and support the work and careers of the project's 4 Post-docs. The study capitalises on previous research and skills of the PI in the cross-cultural study of democracy and muscular politics in the global South. All members of the research team have expertise in ethnographic research in the difficult spheres of criminal politics, informal economies, and political violence and are hence well and sometimes uniquely equipped to pursue this challenging research thematic.
Summary
Over the past decade, the media, international organisations, as well as policy-making bodies have voiced increasing concern about a growing overlap between the criminal and political spheres in South Asia. Many 'criminal politicians' are accused not simply of embezzlement, but of burglary, kidnapping and murder, so that the observed political landscape emerges not only as a 'corrupt', but also a highly violent sphere. This project is a collaborative and cross-national ethnographic study of the criminalisation of politics in India, Pakistan and Bangladesh. Bringing together local-level investigation, surveys and historical analysis, the project will produce comprehensive political ethnographies in sixteen sites across the subcontinent, providing empirical material and theoretical directives for further charting of the virtually unexplored terrain of extra-legal muscular politics in the region. Central to the proposed programme of research are the following interrelated objectives: 1) To further develop the method of collaborative political ethnography by designing, collecting and producing case studies which will allow us to write thematically across sites; 2) To generate policy relevant research in the fields of security, conflict, democracy and development; 3) To produce capability by forging an international network of scholars on issues related to democratisation, violence, crime and support the work and careers of the project's 4 Post-docs. The study capitalises on previous research and skills of the PI in the cross-cultural study of democracy and muscular politics in the global South. All members of the research team have expertise in ethnographic research in the difficult spheres of criminal politics, informal economies, and political violence and are hence well and sometimes uniquely equipped to pursue this challenging research thematic.
Max ERC Funding
1 200 000 €
Duration
Start date: 2012-03-01, End date: 2016-02-29
Project acronym ALKENoNE
Project Algal Lipids: the Key to Earth Now and aNcient Earth
Researcher (PI) Jaime Lynn Toney
Host Institution (HI) UNIVERSITY OF GLASGOW
Call Details Starting Grant (StG), PE10, ERC-2014-STG
Summary Alkenones are algal lipids that have been used for decades to reconstruct quantitative past sea surface temperature. Although alkenones are being discovered in an increasing number of lake sites worldwide, only two terrestrial temperature records have been reconstructed so far. The development of this research field is limited by the lack of interdisciplinary research that combines modern biological and ecological algal research with the organic geochemical techniques needed to develop a quantitative biomarker (or molecular fossil) for past lake temperatures. More research is needed for alkenones to become a widely used tool for reconstructing past terrestrial temperature change. The early career Principal Investigator has discovered a new lake alkenone-producing species of haptophyte algae that produces alkenones in high abundances both in the environment and in laboratory cultures. This makes the new species an ideal organism for developing a culture-based temperature calibration and exploring other potential environmental controls. In this project, alkenone production will be manipulated, and monitored using state-of-the-art photobioreactors with real-time detectors for cell density, light, and temperature. The latest algal culture and isolation techniques that are used in microalgal biofuel development will be applied to developing the lake temperature proxy. The objectives will be achieved through the analysis of 90 new Canadian lakes to develop a core-top temperature calibration across a large latitudinal and temperature gradient (Δ latitude = 5°, Δ spring surface temperature = 9°C). The results will be used to assess how regional palaeo-temperature (Uk37), palaeo-moisture (δDwax) and palaeo-evaporation (δDalgal) respond during times of past global warmth (e.g., Medieval Warm Period, 900-1200 AD) to find an accurate analogue for assessing future drought risk in the interior of Canada.
Summary
Alkenones are algal lipids that have been used for decades to reconstruct quantitative past sea surface temperature. Although alkenones are being discovered in an increasing number of lake sites worldwide, only two terrestrial temperature records have been reconstructed so far. The development of this research field is limited by the lack of interdisciplinary research that combines modern biological and ecological algal research with the organic geochemical techniques needed to develop a quantitative biomarker (or molecular fossil) for past lake temperatures. More research is needed for alkenones to become a widely used tool for reconstructing past terrestrial temperature change. The early career Principal Investigator has discovered a new lake alkenone-producing species of haptophyte algae that produces alkenones in high abundances both in the environment and in laboratory cultures. This makes the new species an ideal organism for developing a culture-based temperature calibration and exploring other potential environmental controls. In this project, alkenone production will be manipulated, and monitored using state-of-the-art photobioreactors with real-time detectors for cell density, light, and temperature. The latest algal culture and isolation techniques that are used in microalgal biofuel development will be applied to developing the lake temperature proxy. The objectives will be achieved through the analysis of 90 new Canadian lakes to develop a core-top temperature calibration across a large latitudinal and temperature gradient (Δ latitude = 5°, Δ spring surface temperature = 9°C). The results will be used to assess how regional palaeo-temperature (Uk37), palaeo-moisture (δDwax) and palaeo-evaporation (δDalgal) respond during times of past global warmth (e.g., Medieval Warm Period, 900-1200 AD) to find an accurate analogue for assessing future drought risk in the interior of Canada.
Max ERC Funding
940 883 €
Duration
Start date: 2015-04-01, End date: 2020-03-31
Project acronym ALREG
Project Analysing Learning in Regulatory Governance
Researcher (PI) Claudio Radaelli
Host Institution (HI) THE UNIVERSITY OF EXETER
Call Details Advanced Grant (AdG), SH2, ERC-2008-AdG
Summary This four-year interdisciplinary project addresses the question what has been learned through the use of better regulation ? Better regulation is a flagship policy on the Lisbon agenda for growth and jobs. Its aims are to provide new governance architectures for law-making, to increase the competitiveness of the regulatory environment, and to secure wide social legitimacy for multi-level systems of rules. Whilst most of the research has looked at how better regulation is changing, this project will produce findings on what has changed because of better regulation. Theoretically, the project will use (and significantly improve on) theories of policy learning. Empirically, it will cover Denmark, Italy, the Netherlands, Poland, the UK and the EU including multi-level analysis and analysis by sector of regulation. Methodologically, the project will draw on comparative analysis of types of learning, experiments with regulatory policy-makers in six countries and the European Commission, large-n analysis of impact assessments, backward-mapping of legislation (to appraise the role played by better regulation in the formulation or laws in the UK and the EU), meta-analysis of case-studies and co-production of knowledge with better regulation officers. Dissemination will target both stakeholders (i.e., policy officers, civil society organizations, and business federations) and academic conferences in political science, law, and risk analysis, with a major research monograph to be completed in year 4 and a final interdisciplinary conference.
Summary
This four-year interdisciplinary project addresses the question what has been learned through the use of better regulation ? Better regulation is a flagship policy on the Lisbon agenda for growth and jobs. Its aims are to provide new governance architectures for law-making, to increase the competitiveness of the regulatory environment, and to secure wide social legitimacy for multi-level systems of rules. Whilst most of the research has looked at how better regulation is changing, this project will produce findings on what has changed because of better regulation. Theoretically, the project will use (and significantly improve on) theories of policy learning. Empirically, it will cover Denmark, Italy, the Netherlands, Poland, the UK and the EU including multi-level analysis and analysis by sector of regulation. Methodologically, the project will draw on comparative analysis of types of learning, experiments with regulatory policy-makers in six countries and the European Commission, large-n analysis of impact assessments, backward-mapping of legislation (to appraise the role played by better regulation in the formulation or laws in the UK and the EU), meta-analysis of case-studies and co-production of knowledge with better regulation officers. Dissemination will target both stakeholders (i.e., policy officers, civil society organizations, and business federations) and academic conferences in political science, law, and risk analysis, with a major research monograph to be completed in year 4 and a final interdisciplinary conference.
Max ERC Funding
948 448 €
Duration
Start date: 2009-09-01, End date: 2013-09-30
Project acronym AMOPROX
Project Quantifying Aerobic Methane Oxidation in the Ocean: Calibration and palaeo application of a novel proxy
Researcher (PI) Helen Marie Talbot
Host Institution (HI) UNIVERSITY OF NEWCASTLE UPON TYNE
Call Details Starting Grant (StG), PE10, ERC-2010-StG_20091028
Summary Methane, a key greenhouse gas, is cycled by microorganisms via two pathways, aerobically and anaerobically. Research on the
marine methane cycle has mainly concentrated on anaerobic processes. Recent biomarker work has provided compelling
evidence that aerobic methane oxidation (AMO) can play a more significant role in cycling methane emitted from sediments than
previously considered. AMO, however, is not well studied requiring novel proxies that can be applied to the sedimentary record. A
group of complex lipids biosynthesised by aerobic methanotrophs known as aminobacteriohopanepolyols represent an ideal target
for developing such poxies. Recently BHPs have been identified in a wide range of modern and recent environments including a
continuous record from the Congo deep sea fan spanning the last 1.2 million years.
In this integrated study, the regulation and expression of BHP will be investigated and calibrated against environmental variables
including temperature, pH, salinity and, most importantly, methane concentrations. The work program has three complementary
strands. (1) Pure culture and sedimentary microcosm experiments providing an approximation to natural conditions. (2) Calibration
of BHP signatures in natural marine settings (e.g. cold seeps, mud volcanoes, pockmarks) against measured methane gradients.
(3) Application of this novel approach to the marine sedimentary record to approximate methane fluxes in the past, explore the age
and bathymetric limits of this novel molecular proxy, and identify and potentially 14C date palaeo-pockmarks structures. Crucial to
the success is also the refinement of the analytical protocols to improve both accuracy and sensitivity, using a more sensitive
analytical instrument (triple-quadrupole mass spectrometer).
Summary
Methane, a key greenhouse gas, is cycled by microorganisms via two pathways, aerobically and anaerobically. Research on the
marine methane cycle has mainly concentrated on anaerobic processes. Recent biomarker work has provided compelling
evidence that aerobic methane oxidation (AMO) can play a more significant role in cycling methane emitted from sediments than
previously considered. AMO, however, is not well studied requiring novel proxies that can be applied to the sedimentary record. A
group of complex lipids biosynthesised by aerobic methanotrophs known as aminobacteriohopanepolyols represent an ideal target
for developing such poxies. Recently BHPs have been identified in a wide range of modern and recent environments including a
continuous record from the Congo deep sea fan spanning the last 1.2 million years.
In this integrated study, the regulation and expression of BHP will be investigated and calibrated against environmental variables
including temperature, pH, salinity and, most importantly, methane concentrations. The work program has three complementary
strands. (1) Pure culture and sedimentary microcosm experiments providing an approximation to natural conditions. (2) Calibration
of BHP signatures in natural marine settings (e.g. cold seeps, mud volcanoes, pockmarks) against measured methane gradients.
(3) Application of this novel approach to the marine sedimentary record to approximate methane fluxes in the past, explore the age
and bathymetric limits of this novel molecular proxy, and identify and potentially 14C date palaeo-pockmarks structures. Crucial to
the success is also the refinement of the analytical protocols to improve both accuracy and sensitivity, using a more sensitive
analytical instrument (triple-quadrupole mass spectrometer).
Max ERC Funding
1 496 392 €
Duration
Start date: 2010-11-01, End date: 2016-04-30
Project acronym AnCon
Project A Comparative Anthropology of Conscience, Ethics and Human Rights
Researcher (PI) Tobias William Kelly
Host Institution (HI) THE UNIVERSITY OF EDINBURGH
Call Details Consolidator Grant (CoG), SH2, ERC-2014-CoG
Summary This project is a comparative anthropology of conscience, ethics and human rights. Numerous international human rights documents formally declare their commitment to protect freedom of conscience. But, what is conscience and how do we know it when we see it? How do we distinguish it from self-interest or fanaticism? And what happens when the concept, often associated with a distinct Christian or liberal history, travels across cultural boundaries? The project will examine the cultural conditions under which claims to conscience are made possible, and the types of claims that are most persuasive when doing so. The project addresses these issues through the comparative analysis of three case studies: British pacifists, Sri Lankan activists, and Soviet dissidents. These case studies have been carefully chosen to provide globally significant, but contrasting examples of contests over the implications of claims to conscience. If claims of conscience are often associated with a specifically liberal and Christian tradition, mid-twentieth century Britain can be said to stand at the centre of that tradition. Sri Lanka represents a particularly fraught post-colonial South Asian counterpoint, wracked by nationalist violence, and influenced by ethical traditions associated with forms of Hinduism and Buddhism. Soviet Russia represents a further contrast, a totalitarian regime, where atheism was the dominant ethical language. Finally, the project will return specifically to international human rights institutions, examining the history of the category of conscience in the UN human rights system. This project will be ground breaking, employing novel methods and analytical insights, in order to producing the first comparative analysis of the cultural and political salience of claims of conscience. In doing so, the research aims to transform our understandings of the limits and potentials of attempts to protect freedom of conscience.
Summary
This project is a comparative anthropology of conscience, ethics and human rights. Numerous international human rights documents formally declare their commitment to protect freedom of conscience. But, what is conscience and how do we know it when we see it? How do we distinguish it from self-interest or fanaticism? And what happens when the concept, often associated with a distinct Christian or liberal history, travels across cultural boundaries? The project will examine the cultural conditions under which claims to conscience are made possible, and the types of claims that are most persuasive when doing so. The project addresses these issues through the comparative analysis of three case studies: British pacifists, Sri Lankan activists, and Soviet dissidents. These case studies have been carefully chosen to provide globally significant, but contrasting examples of contests over the implications of claims to conscience. If claims of conscience are often associated with a specifically liberal and Christian tradition, mid-twentieth century Britain can be said to stand at the centre of that tradition. Sri Lanka represents a particularly fraught post-colonial South Asian counterpoint, wracked by nationalist violence, and influenced by ethical traditions associated with forms of Hinduism and Buddhism. Soviet Russia represents a further contrast, a totalitarian regime, where atheism was the dominant ethical language. Finally, the project will return specifically to international human rights institutions, examining the history of the category of conscience in the UN human rights system. This project will be ground breaking, employing novel methods and analytical insights, in order to producing the first comparative analysis of the cultural and political salience of claims of conscience. In doing so, the research aims to transform our understandings of the limits and potentials of attempts to protect freedom of conscience.
Max ERC Funding
1 457 869 €
Duration
Start date: 2015-08-01, End date: 2020-07-31
