Project acronym AfricanNeo
Project The African Neolithic: A genetic perspective
Researcher (PI) Carina SCHLEBUSCH
Host Institution (HI) UPPSALA UNIVERSITET
Country Sweden
Call Details Starting Grant (StG), SH6, ERC-2017-STG
Summary The spread of farming practices in various parts of the world had a marked influence on how humans live today and how we are distributed around the globe. Around 10,000 years ago, warmer conditions lead to population increases, coinciding with the invention of farming in several places around the world. Archaeological evidence attest to the spread of these practices to neighboring regions. In many cases this lead to whole continents being converted from hunter-gatherer to farming societies. It is however difficult to see from archaeological records if only the farming culture spread to other places or whether the farming people themselves migrated. Investigating patterns of genetic variation for farming populations and for remaining hunter-gatherer groups can help to resolve questions on population movements co-occurring with the spread of farming practices. It can further shed light on the routes of migration and dates when migrants arrived.
The spread of farming to Europe has been thoroughly investigated in the fields of archaeology, linguistics and genetics, while on other continents these events have been less investigated. In Africa, mainly linguistic and archaeological studies have attempted to elucidate the spread of farming and herding practices. I propose to investigate the movement of farmer and pastoral groups in Africa, by typing densely spaced genome-wide variant positions in a large number of African populations. The data will be used to infer how farming and pastoralism was introduced to various regions, where the incoming people originated from and when these (potential) population movements occurred. Through this study, the Holocene history of Africa will be revealed and placed into a global context of migration, mobility and cultural transitions. Additionally the study will give due credence to one of the largest Neolithic expansion events, the Bantu-expansion, which caused a pronounced change in the demographic landscape of the African continent
Summary
The spread of farming practices in various parts of the world had a marked influence on how humans live today and how we are distributed around the globe. Around 10,000 years ago, warmer conditions lead to population increases, coinciding with the invention of farming in several places around the world. Archaeological evidence attest to the spread of these practices to neighboring regions. In many cases this lead to whole continents being converted from hunter-gatherer to farming societies. It is however difficult to see from archaeological records if only the farming culture spread to other places or whether the farming people themselves migrated. Investigating patterns of genetic variation for farming populations and for remaining hunter-gatherer groups can help to resolve questions on population movements co-occurring with the spread of farming practices. It can further shed light on the routes of migration and dates when migrants arrived.
The spread of farming to Europe has been thoroughly investigated in the fields of archaeology, linguistics and genetics, while on other continents these events have been less investigated. In Africa, mainly linguistic and archaeological studies have attempted to elucidate the spread of farming and herding practices. I propose to investigate the movement of farmer and pastoral groups in Africa, by typing densely spaced genome-wide variant positions in a large number of African populations. The data will be used to infer how farming and pastoralism was introduced to various regions, where the incoming people originated from and when these (potential) population movements occurred. Through this study, the Holocene history of Africa will be revealed and placed into a global context of migration, mobility and cultural transitions. Additionally the study will give due credence to one of the largest Neolithic expansion events, the Bantu-expansion, which caused a pronounced change in the demographic landscape of the African continent
Max ERC Funding
1 500 000 €
Duration
Start date: 2017-11-01, End date: 2022-10-31
Project acronym ANSR
Project Ab initio approach to nuclear structure and reactions (++)
Researcher (PI) Christian Erik Forssen
Host Institution (HI) CHALMERS TEKNISKA HOEGSKOLA AB
Country Sweden
Call Details Starting Grant (StG), PE2, ERC-2009-StG
Summary Today, much interest in several fields of physics is devoted to the study of small, open quantum systems, whose properties are profoundly affected by the environment; i.e., the continuum of decay channels. In nuclear physics, these problems were originally studied in the context of nuclear reactions but their importance has been reestablished with the advent of radioactive-beam physics and the resulting interest in exotic nuclei. In particular, strong theory initiatives in this area of research will be instrumental for the success of the experimental program at the Facility for Antiproton and Ion Research (FAIR) in Germany. In addition, many of the aspects of open quantum systems are also being explored in the rapidly evolving research on ultracold atomic gases, quantum dots, and other nanodevices. A first-principles description of open quantum systems presents a substantial theoretical and computational challenge. However, the current availability of enormous computing power has allowed theorists to make spectacular progress on problems that were previously thought intractable. The importance of computational methods to study quantum many-body systems is stressed in this proposal. Our approach is based on the ab initio no-core shell model (NCSM), which is a well-established theoretical framework aimed originally at an exact description of nuclear structure starting from realistic inter-nucleon forces. A successful completion of this project requires extensions of the NCSM mathematical framework and the development of highly advanced computer codes. The '++' in the project title indicates the interdisciplinary aspects of the present research proposal and the ambition to make a significant impact on connected fields of many-body physics.
Summary
Today, much interest in several fields of physics is devoted to the study of small, open quantum systems, whose properties are profoundly affected by the environment; i.e., the continuum of decay channels. In nuclear physics, these problems were originally studied in the context of nuclear reactions but their importance has been reestablished with the advent of radioactive-beam physics and the resulting interest in exotic nuclei. In particular, strong theory initiatives in this area of research will be instrumental for the success of the experimental program at the Facility for Antiproton and Ion Research (FAIR) in Germany. In addition, many of the aspects of open quantum systems are also being explored in the rapidly evolving research on ultracold atomic gases, quantum dots, and other nanodevices. A first-principles description of open quantum systems presents a substantial theoretical and computational challenge. However, the current availability of enormous computing power has allowed theorists to make spectacular progress on problems that were previously thought intractable. The importance of computational methods to study quantum many-body systems is stressed in this proposal. Our approach is based on the ab initio no-core shell model (NCSM), which is a well-established theoretical framework aimed originally at an exact description of nuclear structure starting from realistic inter-nucleon forces. A successful completion of this project requires extensions of the NCSM mathematical framework and the development of highly advanced computer codes. The '++' in the project title indicates the interdisciplinary aspects of the present research proposal and the ambition to make a significant impact on connected fields of many-body physics.
Max ERC Funding
1 304 800 €
Duration
Start date: 2009-12-01, End date: 2014-11-30
Project acronym BRAINCELL
Project Charting the landscape of brain development by large-scale single-cell transcriptomics and phylogenetic lineage reconstruction
Researcher (PI) Sten Linnarsson
Host Institution (HI) KAROLINSKA INSTITUTET
Country Sweden
Call Details Starting Grant (StG), LS2, ERC-2010-StG_20091118
Summary Embryogenesis is the temporal unfolding of cellular processes: proliferation, migration, differentiation, morphogenesis, apoptosis and functional specialization. These processes are well understood in specific tissues, and for specific cell types. Nevertheless, our systematic knowledge of the types of cells present in the developing and adult animal, and about their functional and lineage relationships, is limited. For example, there is no consensus on the number of cell types, and many important stem cells and progenitors remain to be discovered. Similarly, the lineage relationships between specific cell types are often poorly characterized. This is particularly true for the mammalian nervous system. We have developed (1) a reliable high-throghput method for sequencing all transcripts in 96 single cells at a time; and (2) a system for high-throughput phylogenetic lineage reconstruction. We now propose to characterize embryogenesis using a shotgun approach borrowed from genomics. Tissues will be dissected from multiple stages and dissociated to single cells. A total of 10,000 cells will be analyzed by RNA sequencing, revealing their functional cell type, their lineage relationships, and their current state (e.g. cell cycle phase). The novel approach proposed here will bring the powerful strategies pioneered in genomics into the field of developmental biology, including automation, digitization, and the random shotgun method. The data thus obtained will bring clarity to the concept of ‘cell type’; will provide a first catalog of mouse brain cell types with deep functional annotation; will provide markers for every cell type, including stem cells; and will serve as a basis for future comparative work, especially with human embryos.
Summary
Embryogenesis is the temporal unfolding of cellular processes: proliferation, migration, differentiation, morphogenesis, apoptosis and functional specialization. These processes are well understood in specific tissues, and for specific cell types. Nevertheless, our systematic knowledge of the types of cells present in the developing and adult animal, and about their functional and lineage relationships, is limited. For example, there is no consensus on the number of cell types, and many important stem cells and progenitors remain to be discovered. Similarly, the lineage relationships between specific cell types are often poorly characterized. This is particularly true for the mammalian nervous system. We have developed (1) a reliable high-throghput method for sequencing all transcripts in 96 single cells at a time; and (2) a system for high-throughput phylogenetic lineage reconstruction. We now propose to characterize embryogenesis using a shotgun approach borrowed from genomics. Tissues will be dissected from multiple stages and dissociated to single cells. A total of 10,000 cells will be analyzed by RNA sequencing, revealing their functional cell type, their lineage relationships, and their current state (e.g. cell cycle phase). The novel approach proposed here will bring the powerful strategies pioneered in genomics into the field of developmental biology, including automation, digitization, and the random shotgun method. The data thus obtained will bring clarity to the concept of ‘cell type’; will provide a first catalog of mouse brain cell types with deep functional annotation; will provide markers for every cell type, including stem cells; and will serve as a basis for future comparative work, especially with human embryos.
Max ERC Funding
1 496 032 €
Duration
Start date: 2010-11-01, End date: 2015-10-31
Project acronym CEV
Project Coordination by Evaluations and Valuations:
Market Logic Inside and Outside the Economy
Researcher (PI) Jonas Patrik Aspers
Host Institution (HI) UPPSALA UNIVERSITET
Country Sweden
Call Details Starting Grant (StG), SH2, ERC-2010-StG_20091209
Summary This project studies evaluation and valuation as ways of coordinating actors and resources. Valuation is the ascribing of value to people, organizations, things and events given that there is no standard of value. Evaluation is judging according to an already existing value-standard. Valuation and evaluation are ways of ranking and thus ordering of objects . Markets are examples of economic social formations in which valuations and evaluations are the foundation for the choices made. Valuation and evaluation are important means of coordination also outside of the economy, in competitions (e.g., sports), reviews (e.g., books), and auditing (e.g., of ethical conduct).
This project is motivated by evaluation and valuation as increasingly influential ways of coordinating social life. Choices based on evaluation have gradually replaced networks and hierarchies as the preferred coordination form, but processes of valuation or evaluation are not well-understood. The overarching research question of this project is: how do processes of coordination based on valuations function? By understanding these processes can we analyze the consequences of coordinated by the means of evaluation in different spheres of life. It is also the foundation for policy suggestions.
The proposed project uses theoretical insights about market elements in economics and sociology and on the relational sociological literature on social formations. Empirical sub-projects are designed to facilitate comparison, to establish validated conclusions and to promote theory development. This project opens up a new avenue of research of coordination based on valuation and evaluation. It will lead to the establishment a high quality research group located at the frontiers of social science.
Summary
This project studies evaluation and valuation as ways of coordinating actors and resources. Valuation is the ascribing of value to people, organizations, things and events given that there is no standard of value. Evaluation is judging according to an already existing value-standard. Valuation and evaluation are ways of ranking and thus ordering of objects . Markets are examples of economic social formations in which valuations and evaluations are the foundation for the choices made. Valuation and evaluation are important means of coordination also outside of the economy, in competitions (e.g., sports), reviews (e.g., books), and auditing (e.g., of ethical conduct).
This project is motivated by evaluation and valuation as increasingly influential ways of coordinating social life. Choices based on evaluation have gradually replaced networks and hierarchies as the preferred coordination form, but processes of valuation or evaluation are not well-understood. The overarching research question of this project is: how do processes of coordination based on valuations function? By understanding these processes can we analyze the consequences of coordinated by the means of evaluation in different spheres of life. It is also the foundation for policy suggestions.
The proposed project uses theoretical insights about market elements in economics and sociology and on the relational sociological literature on social formations. Empirical sub-projects are designed to facilitate comparison, to establish validated conclusions and to promote theory development. This project opens up a new avenue of research of coordination based on valuation and evaluation. It will lead to the establishment a high quality research group located at the frontiers of social science.
Max ERC Funding
1 476 251 €
Duration
Start date: 2011-03-01, End date: 2016-02-29
Project acronym collectiveQCD
Project Collectivity in small, srongly interacting systems
Researcher (PI) Korinna ZAPP
Host Institution (HI) LUNDS UNIVERSITET
Country Sweden
Call Details Starting Grant (StG), PE2, ERC-2018-STG
Summary In collisions of heavy nuclei at collider energies, for instance at the Large Hadron Collider (LHC) at CERN, the energy density is so high that an equilibrated Quark-Gluon Plasma (QGP), an exotic state of matter consisting of deconfined quarks and gluons, is formed. In proton-proton (p+p) collisions, on the other hand, the density of produced particles is low. The traditional view on such reactions is that final state particles are free and do not rescatter. This picture is challenged by recent LHC data, which found features in p+p collisions that are indicative of collective behaviour and/or the formation of a hot and dense system. These findings have been taken as signs of QGP formation in p+p reactions. Such an interpretation is complicated by the fact that jets, which are the manifestation of very energetic quarks and gluons, are quenched in heavy ion collisions, but appear to be unmodified in p+p reactions. This is puzzling because collectivity and jet quenching are caused by the same processes. So far there is no consensus about the interpretation of these results, which is also due to a lack of suitable tools.
It is the objective of this proposal to address the question whether there are collective effects in p+p collisions. To this end two models capable of describing all relevant aspects of p+p and heavy ion collisions will be developed. They will be obtained by extending a successful description of p+p to heavy ion reactions and vice versa.
The answer to these questions will either clarify the long-standing problem how collectivity emerges from fundamental interactions, or it will necessitate qualitative changes to our interpretation of collective phenomena in p+p and/or heavy ion collisions.
The PI is in a unique position to accomplish this goal, as she has spent her entire career working on different aspects of p+p and heavy ion collisions. The group in Lund is the ideal host, as it is very active in developing alternative interpretations of the data.
Summary
In collisions of heavy nuclei at collider energies, for instance at the Large Hadron Collider (LHC) at CERN, the energy density is so high that an equilibrated Quark-Gluon Plasma (QGP), an exotic state of matter consisting of deconfined quarks and gluons, is formed. In proton-proton (p+p) collisions, on the other hand, the density of produced particles is low. The traditional view on such reactions is that final state particles are free and do not rescatter. This picture is challenged by recent LHC data, which found features in p+p collisions that are indicative of collective behaviour and/or the formation of a hot and dense system. These findings have been taken as signs of QGP formation in p+p reactions. Such an interpretation is complicated by the fact that jets, which are the manifestation of very energetic quarks and gluons, are quenched in heavy ion collisions, but appear to be unmodified in p+p reactions. This is puzzling because collectivity and jet quenching are caused by the same processes. So far there is no consensus about the interpretation of these results, which is also due to a lack of suitable tools.
It is the objective of this proposal to address the question whether there are collective effects in p+p collisions. To this end two models capable of describing all relevant aspects of p+p and heavy ion collisions will be developed. They will be obtained by extending a successful description of p+p to heavy ion reactions and vice versa.
The answer to these questions will either clarify the long-standing problem how collectivity emerges from fundamental interactions, or it will necessitate qualitative changes to our interpretation of collective phenomena in p+p and/or heavy ion collisions.
The PI is in a unique position to accomplish this goal, as she has spent her entire career working on different aspects of p+p and heavy ion collisions. The group in Lund is the ideal host, as it is very active in developing alternative interpretations of the data.
Max ERC Funding
1 500 000 €
Duration
Start date: 2019-02-01, End date: 2024-01-31
Project acronym COOPNET
Project Cooperative Situational Awareness for Wireless Networks
Researcher (PI) Henk Wymeersch
Host Institution (HI) CHALMERS TEKNISKA HOEGSKOLA AB
Country Sweden
Call Details Starting Grant (StG), PE7, ERC-2010-StG_20091028
Summary Devices in wireless networks are no longer used only for communicating binary information, but also for navigation and to sense their surroundings. We are currently approaching fundamental limitations in terms of communication throughput, position information availability and accuracy, and decision making based on sensory data. The goal of this proposal is to understand how the cooperative nature of future wireless networks can be leveraged to perform timekeeping, positioning, communication, and decision making, so as to obtain orders of magnitude performance improvements compared to current architectures.
Our research will have implications in many fields and will comprise fundamental theoretical contributions as well as a cooperative wireless testbed. The fundamental contributions will lead to a deep understanding of cooperative wireless networks and will enable new pervasive applications which currently cannot be supported. The testbed will be used to validate the research, and will serve as a kernel for other researchers worldwide to advance knowledge on cooperative networks. Our work will build on and consolidate knowledge currently dispersed in different scientific disciplines and communities (such as communication theory, sensor networks, distributed estimation and detection, environmental monitoring, control theory, positioning and timekeeping, distributed optimization). It will give a new thrust to research within those communities and forge relations between them.
Summary
Devices in wireless networks are no longer used only for communicating binary information, but also for navigation and to sense their surroundings. We are currently approaching fundamental limitations in terms of communication throughput, position information availability and accuracy, and decision making based on sensory data. The goal of this proposal is to understand how the cooperative nature of future wireless networks can be leveraged to perform timekeeping, positioning, communication, and decision making, so as to obtain orders of magnitude performance improvements compared to current architectures.
Our research will have implications in many fields and will comprise fundamental theoretical contributions as well as a cooperative wireless testbed. The fundamental contributions will lead to a deep understanding of cooperative wireless networks and will enable new pervasive applications which currently cannot be supported. The testbed will be used to validate the research, and will serve as a kernel for other researchers worldwide to advance knowledge on cooperative networks. Our work will build on and consolidate knowledge currently dispersed in different scientific disciplines and communities (such as communication theory, sensor networks, distributed estimation and detection, environmental monitoring, control theory, positioning and timekeeping, distributed optimization). It will give a new thrust to research within those communities and forge relations between them.
Max ERC Funding
1 500 000 €
Duration
Start date: 2011-05-01, End date: 2016-04-30
Project acronym ELECTRONOPERA
Project Electron dynamics to the Attosecond time scale and Angstrom length scale on low dimensional structures in Operation
Researcher (PI) Anders Mikkelsen
Host Institution (HI) MAX IV Laboratory, Lund University
Country Sweden
Call Details Starting Grant (StG), PE3, ERC-2010-StG_20091028
Summary We will develop and use imaging techniques for direct probing of electron dynamics in low dimensional structures with orders of
magnitude improvements in time and spatial resolution. We will perform our measurements not only on static structures, but on
complex structures under operating conditions. Finally as our equipment can also probe structural properties from microns to
single atom defects we can directly correlate our observations of electron dynamics with knowledge of geometrical structure. We
hope to directly answer central questions in nanophysics on how complex geometric structure on several length-scales induces
new and surprising electron dynamics and thus properties in nanoscale objects.
The low dimensional semiconductors and metal (nano) structures studied will be chosen to have unique novel properties that will
have potential applications in IT, life-science and renewable energy.
To radically increase our diagnostics capabilities we will combine PhotoEmission Electron Microscopy and attosecond XUV/IR
laser technology to directly image surface electron dynamics with attosecond time resolution and nanometer lateral resolution.
Exploring a completely new realm in terms of timescale with nm resolution we will start with rather simple structure such as Au
nanoparticles and arrays nanoholes in ultrathin metal films, and gradually increase complexity.
As the first group in the world we have shown that atomic resolved structural and electrical measurements by Scanning Tunneling
Microscopy is possible on complex 1D semiconductors heterostructures. Importantly, our new method allows for direct studies of
nanowires in devices.
We can now measure atomic scale surface chemistry and surface electronic/geometric structure directly on operational/operating
nanoscale devices. This is important both from a technology point of view, and is an excellent playground for understanding the
fundamental interplay between electronic and structural properties.
Summary
We will develop and use imaging techniques for direct probing of electron dynamics in low dimensional structures with orders of
magnitude improvements in time and spatial resolution. We will perform our measurements not only on static structures, but on
complex structures under operating conditions. Finally as our equipment can also probe structural properties from microns to
single atom defects we can directly correlate our observations of electron dynamics with knowledge of geometrical structure. We
hope to directly answer central questions in nanophysics on how complex geometric structure on several length-scales induces
new and surprising electron dynamics and thus properties in nanoscale objects.
The low dimensional semiconductors and metal (nano) structures studied will be chosen to have unique novel properties that will
have potential applications in IT, life-science and renewable energy.
To radically increase our diagnostics capabilities we will combine PhotoEmission Electron Microscopy and attosecond XUV/IR
laser technology to directly image surface electron dynamics with attosecond time resolution and nanometer lateral resolution.
Exploring a completely new realm in terms of timescale with nm resolution we will start with rather simple structure such as Au
nanoparticles and arrays nanoholes in ultrathin metal films, and gradually increase complexity.
As the first group in the world we have shown that atomic resolved structural and electrical measurements by Scanning Tunneling
Microscopy is possible on complex 1D semiconductors heterostructures. Importantly, our new method allows for direct studies of
nanowires in devices.
We can now measure atomic scale surface chemistry and surface electronic/geometric structure directly on operational/operating
nanoscale devices. This is important both from a technology point of view, and is an excellent playground for understanding the
fundamental interplay between electronic and structural properties.
Max ERC Funding
1 419 120 €
Duration
Start date: 2010-10-01, End date: 2015-09-30
Project acronym HEALFAM
Project The effects of unemployment on health of family members
Researcher (PI) Anna BARANOWSKA-RATAJ
Host Institution (HI) UMEA UNIVERSITET
Country Sweden
Call Details Starting Grant (StG), SH3, ERC-2018-STG
Summary Previous research has investigated the relationship between unemployment and health from a perspective of an isolated individual. HEALFAM takes a novel approach and examines how transition to unemployment triggers diffusion of ill mental and physical health within families. It investigates how becoming unemployed affects health outcomes of partners, children and elderly parents of the unemployed and whether the magnitudes of these influences differ across families and societies. Thus, instead of viewing the unemployed as functioning in isolation, HEALFAM assesses the consequences of unemployment for family members taking a multi-actor perspective and international comparative approach.
Guided by the life course theoretical framework, which views health and well-being as a process rather than a state and calls for considering interrelatedness of individuals, HEALFAM employs longitudinal data that provide information about multiple members of families. In order to analyse these datasets, HEALFAM uses longitudinal dyadic data analysis techniques as well as multilevel models for longitudinal data.
HEALFAM aims to open a new frontline of research on health and wellbeing from a life course perspective. It benefits from my knowledge on three interrelated social phenomena: (1) the role of labour market career and experiences of unemployment (2) family structure and intra-family resources (3) social antecedents of health and wellbeing among family members. It draws on high quality register and panel survey data as well as the expertise at the interdisciplinary research centres that I am connected to at Umeå University. Through international collaborations, it brings together experts in multiple disciplines carrying out research taking a life course perspective.
Summary
Previous research has investigated the relationship between unemployment and health from a perspective of an isolated individual. HEALFAM takes a novel approach and examines how transition to unemployment triggers diffusion of ill mental and physical health within families. It investigates how becoming unemployed affects health outcomes of partners, children and elderly parents of the unemployed and whether the magnitudes of these influences differ across families and societies. Thus, instead of viewing the unemployed as functioning in isolation, HEALFAM assesses the consequences of unemployment for family members taking a multi-actor perspective and international comparative approach.
Guided by the life course theoretical framework, which views health and well-being as a process rather than a state and calls for considering interrelatedness of individuals, HEALFAM employs longitudinal data that provide information about multiple members of families. In order to analyse these datasets, HEALFAM uses longitudinal dyadic data analysis techniques as well as multilevel models for longitudinal data.
HEALFAM aims to open a new frontline of research on health and wellbeing from a life course perspective. It benefits from my knowledge on three interrelated social phenomena: (1) the role of labour market career and experiences of unemployment (2) family structure and intra-family resources (3) social antecedents of health and wellbeing among family members. It draws on high quality register and panel survey data as well as the expertise at the interdisciplinary research centres that I am connected to at Umeå University. Through international collaborations, it brings together experts in multiple disciplines carrying out research taking a life course perspective.
Max ERC Funding
1 477 556 €
Duration
Start date: 2019-03-01, End date: 2024-02-29
Project acronym INTGEN
Project Intergenerational correlations of schooling, income and health: an investigation of the underlying mechanisms
Researcher (PI) Carl Mikael Lindahl
Host Institution (HI) UPPSALA UNIVERSITET
Country Sweden
Call Details Starting Grant (StG), SH1, ERC-2009-StG
Summary The objective of this project is to use rich Swedish registry data to learn about mechanisms behind intergenerational correlations. Typically, considerably effort has been spent on estimating correlations between outcome variables, such as education and income, for parents and children. However, the estimated correlations are driven by the causal effect of the parental variable of interest as well as unobservable factors such as other family background related variables and a part that is due to genetic transmission between parent and child. Disentangling these parts is very difficult and only recently has researchers made serious attempts to disentangling these different parts. However, findings vary widely across methods and this literature is still in its infancy. Among questions we ask are: How much of the association between outcome variables for the child and a parent is due to a causal effect from the parental variable, and how much is transmitted through unobservable family factors and genetic transmission? What are the intergenerational transmission and channels for life expectancy and health? What is the importance of genes-environmental interaction? Has the importance of genes, environment and its interactions for the intergenerational associations changed during the growth of the Scandinavian welfare state? How many generations does it take for ancestors placement in the income distribution to not longer matter for life success? These questions are directly relevant for policy, and relate to classical social science issues such as inequality of opportunity and level-of-living in general. The innovativeness of this project is based on using the uniqueness of Swedish registry data (ideal to answer these questions), with which one can match biological and adoptive parents, children and siblings, and hence can identify whether children are reared by their biological or adoptive parents, for the population of Swedes.
Summary
The objective of this project is to use rich Swedish registry data to learn about mechanisms behind intergenerational correlations. Typically, considerably effort has been spent on estimating correlations between outcome variables, such as education and income, for parents and children. However, the estimated correlations are driven by the causal effect of the parental variable of interest as well as unobservable factors such as other family background related variables and a part that is due to genetic transmission between parent and child. Disentangling these parts is very difficult and only recently has researchers made serious attempts to disentangling these different parts. However, findings vary widely across methods and this literature is still in its infancy. Among questions we ask are: How much of the association between outcome variables for the child and a parent is due to a causal effect from the parental variable, and how much is transmitted through unobservable family factors and genetic transmission? What are the intergenerational transmission and channels for life expectancy and health? What is the importance of genes-environmental interaction? Has the importance of genes, environment and its interactions for the intergenerational associations changed during the growth of the Scandinavian welfare state? How many generations does it take for ancestors placement in the income distribution to not longer matter for life success? These questions are directly relevant for policy, and relate to classical social science issues such as inequality of opportunity and level-of-living in general. The innovativeness of this project is based on using the uniqueness of Swedish registry data (ideal to answer these questions), with which one can match biological and adoptive parents, children and siblings, and hence can identify whether children are reared by their biological or adoptive parents, for the population of Swedes.
Max ERC Funding
631 600 €
Duration
Start date: 2010-09-01, End date: 2015-08-31
Project acronym JUSTEMOTIONS
Project The construction of objectivity - An international perspective on the emotive-cognitive process of judicial decision-making
Researcher (PI) Stina BERGMAN BLIX
Host Institution (HI) UPPSALA UNIVERSITET
Country Sweden
Call Details Starting Grant (StG), SH3, ERC-2017-STG
Summary This project is the first comprehensive study of how objectivity is construed in different legal systems, in Sweden, Scotland, USA and Italy. Objectivity is operationalised as the applied emotive-cognitive process of judicial decision-making. This definition challenges the prevailing positivist legal notion of objectivity, which implies a separation of emotion/reason as opposites. Previous research has shown this dichotomy to be problematic; reason depends on emotions and ’feeling’ the consequences of alternative action is fundamental to form rational decisions. For legal actors this means that objective decision-making relies on emotional information and that sensibilities influence allocation of culpability. Through a comparative multi method qualitative design (court observations, shadowing, interviews and text analyses) we will follow criminal cases from prosecution, lower court, to the court of appeal focusing on: 1) The emotive-cognitive construction of objective decision-making; 2) Dimensions of encoding subjective lay narratives in a legal case into objective judicial categories; 3) Emotive-cognitive components of changed decisions. By contrasting the judicial decision-making process in different legal systems (common and civil criminal law) and in varying emotional regimes (e.g. subtle Swedish regime, outspoken American regime), we will dissect differences and similarities in the construction of objectivity in countries that all share the ideal of judicial dispassion. The project is path breaking by addressing problems with relying on a positivist notion of objectivity which tends to preclude legal actors from reflecting on how they do use emotions at work, thereby obscuring when personal sensibilities interfere with professional decisions. Since judicial objectivity serves as the quintessence of rational decision-making, this project will be of applied as well as theoretical relevance in the understanding of rational action outside of the legal context.
Summary
This project is the first comprehensive study of how objectivity is construed in different legal systems, in Sweden, Scotland, USA and Italy. Objectivity is operationalised as the applied emotive-cognitive process of judicial decision-making. This definition challenges the prevailing positivist legal notion of objectivity, which implies a separation of emotion/reason as opposites. Previous research has shown this dichotomy to be problematic; reason depends on emotions and ’feeling’ the consequences of alternative action is fundamental to form rational decisions. For legal actors this means that objective decision-making relies on emotional information and that sensibilities influence allocation of culpability. Through a comparative multi method qualitative design (court observations, shadowing, interviews and text analyses) we will follow criminal cases from prosecution, lower court, to the court of appeal focusing on: 1) The emotive-cognitive construction of objective decision-making; 2) Dimensions of encoding subjective lay narratives in a legal case into objective judicial categories; 3) Emotive-cognitive components of changed decisions. By contrasting the judicial decision-making process in different legal systems (common and civil criminal law) and in varying emotional regimes (e.g. subtle Swedish regime, outspoken American regime), we will dissect differences and similarities in the construction of objectivity in countries that all share the ideal of judicial dispassion. The project is path breaking by addressing problems with relying on a positivist notion of objectivity which tends to preclude legal actors from reflecting on how they do use emotions at work, thereby obscuring when personal sensibilities interfere with professional decisions. Since judicial objectivity serves as the quintessence of rational decision-making, this project will be of applied as well as theoretical relevance in the understanding of rational action outside of the legal context.
Max ERC Funding
1 499 671 €
Duration
Start date: 2018-09-01, End date: 2023-08-31
