TY  - THES
A1  - Willner, Sven N.
T1  - Global economic response to flood damages under climate change
T1  - Global-ökonomische Reaktion auf klimabedingte Überschwemmungsschäden
N2  - Climate change affects societies across the globe in various ways. In addition to gradual changes in temperature and other climatic variables, global warming is likely to increase intensity and frequency of extreme weather events.
Beyond biophysical impacts, these also directly affect societal and economic activity. Additionally, indirect effects can occur; spatially, economic losses can spread along global supply-chains; temporally, climate impacts can change the economic development trajectory of countries.
This thesis first examines how climate change alters river flood risk and its local socio-economic implications. Then, it studies the global economic response to river floods in particular, and to climate change in general.
Changes in high-end river flood risk are calculated for the next three decades on a global scale with high spatial resolution. In order to account for uncertainties, this assessment makes use of an ensemble of climate and hydrological models as well as a river routing model, that is found to perform well regarding peak river discharge. The results show an increase in high-end flood risk in many parts of the world, which require profound adaptation efforts. This pressure to adapt is measured as the enhancement in protection level necessary to stay at historical high-end risk. In developing countries as well as in industrialized regions, a high pressure to adapt is observed - the former to increase low protection levels, the latter to maintain the low risk levels perceived in the past.
Further in this thesis, the global agent-based dynamic supply-chain model acclimate is developed. It models the cascading of indirect losses in the global supply network. As an anomaly model its agents - firms and consumers - maximize their profit locally to respond optimally to local perturbations. Incorporating quantities as well as prices on a daily basis, it is suitable to dynamically resolve the impacts of unanticipated climate extremes.
The model is further complemented by a static measure, which captures the inter-dependencies between sectors across regions that are only connected indirectly. These higher-order dependencies are shown to be important for a comprehensive assessment of loss-propagation and overall costs of local disasters.
In order to study the economic response to river floods, the acclimate model is driven by flood simulations. Within the next two decades, the increase in direct losses can only partially be compensated by market adjustments, and total losses are projected to increase by 17% without further adaptation efforts. The US and the EU are both shown to receive indirect losses from China, which is strongly affected directly. However, recent trends in the trade relations leave the EU in a better position to compensate for these losses.
Finally, this thesis takes a broader perspective when determining the investment response to the climate change damages employing the integrated assessment model DICE. On an optimal economic development path, the increase in damages is anticipated as emissions and consequently temperatures increase. This leads to a significant devaluation of investment returns and the income losses from climate damages almost double.
Overall, the results highlight the need to adapt to extreme weather events - local physical adaptation measures have to be combined with regional and global policy measures to prepare the global supply-chain network to climate change.
N2  - Der Klimawandel betrifft Gesellschaften weltweit auf verschiedenste Weise. Neben graduellen Veränderungen der Temperatur und anderer klimatischer Variablen werden wahrscheinlich auch die Intensität und die Häufigkeit von Extremwetterereignissen zunehmen. Diese beeinflussen neben ihren bio-physikalischen Auswirkungen auch unmittelbar die gesellschaftliche und wirtschaftliche Aktivität. Zusätzlich können indirekte Effekte auftreten: Die räumliche Dimension umfasst die Ausbreitung wirtschaftlicher Schäden entlang globaler Versorgungsketten, zeitlich betrachtet können Klimaauswirkungen die wirtschaftlichen Entwicklungspfade von Ländern prägen.
Die vorliegende Dissertation widmet sich zunächst der Frage, wie sich (Fluss-)Hochwasserrisiken und ihre gesellschaftlichen sowie wirtschaftlichen Implikationen durch den Klimawandel verändern. Weiterhin wird die Reaktionsdynamik des globalen ökonomischen Systems auf Klimawandel im Allgemeinen und auf Überschwemmungsereignisse an Flüssen im Speziellen untersucht.
So werden die Risiken von schweren Fluss-Überschwemmungen für die nächsten drei Jahrzehnte global mit hoher räumlicher Auflösung berechnet. Zur Berücksichtigung von Unsicherheiten wird dabei auf ein Ensemble von Klima- und hydrologischen Modellen zurückgegriffen. Dabei werden die hydrologischen Modelle mit einem Flussverteilungsmodel, das die verbesserte Abbildung von Extrempegelständen an Flüssen ermöglicht, kombiniert. Die Berechnungen zeigen einen Anstieg des Überschwemmungsrisikos für weite Teile der Erde. Der damit einhergehende Anpassungsdruck wird in dieser Studie als Anpassung des Schutzniveaus berechnet, die notwendig ist, um das bestehende Überschwemmungsrisiko beizubehalten. Ein hoher Anpassungsdruck besteht dabei sowohl in Entwicklungs- als auch in Industriestaaten. Während in Ersteren oft erst adäquate Hochwasserschutzmaßnahmen ergriffen werden müssen, müssen Letztere oft ihr aktuelles Schutzniveau ausbauen.
Weiterhin wird in der vorliegenden Arbeit das globale, agenten-basierte und dynamische Modell acclimate entwickelt, welches Kaskaden von indirekten ökonomischen Schäden im globalen Versorgungsnetzwerk modelliert. Acclimate ist als Anomalienmodell angelegt, dessen Agenten - Firmen und Konsumenten - durch Profitmaximierung versuchen, optimal auf lokale Störungen zu reagieren. Da das Modell sowohl Warenströme als auch die zugehörigen Preise nach Tagen aufgelöst abbildet, ist es besonders gut geeignet, die kurzfristigen ökonomischen Auswirkungen unvorhergesehener Klimaextreme zu beschreiben. Das dynamische Modell wird ergänzt durch ein neues statisches Maß, das die Abhängigkeiten zwischen regionalen Sektoren beschreibt. Dabei werden nicht nur die direkten Handelsverbindungen betrachtet, sondern auch solche höherer Ordnung. Es zeigt sich, dass diese für eine umfassende Abschätzung der Schadenskaskaden und damit der Gesamtkosten lokaler Extremereignisse nicht vernachlässigt werden dürfen.
Zur Untersuchung der ökonomischen Reaktionsdynamik auf Hochwasserereignisse wird das acclimate-Modell für Simulationen von Flussüberschwemmungen angewandt. Bis zum Jahr 2035 wird dabei ein Anstieg des direkten Schadens prognostiziert. Dieser kann nur teilweise durch Marktmechanismen ausgeglichen werden, so dass die Gesamtschäden weltweit um 17% zunehmen - sofern keine zusätzlichen Anpassungsmaßnahmen getroffen werden. Für die USA und die EU zeigt sich, dass diese durch ihre Handelsverbindungen insbesondere zu China indirekt betroffen sind, da China starke direkte Flussüberflutungen zu erwarten hat. Die Entwicklungen der globalen Handelsbeziehungen in den letzten Jahren versetzen die EU jedoch in die Lage einen zunehmenden Teil dieser Verluste auszugleichen.
In einem weiter gefassten Ansatz wird schlussendlich die Änderung des Investitionsverhaltens aufgrund der Schäden durch Klimawandel unter Zuhilfenahme des ökonomischen Wachstumsmodells DICE untersucht. Es lässt sich festhalten, dass auf einem optimalen ökonomischen Entwicklungspfad die Zunahme der Schäden bereits antizipiert wird, wenn Emissionen und dem darauf folgend die Temperatur ansteigen. Dies führt zu einer signifikanten Abwertung von Kapitalerträgen, was die direkten Verluste durch Klimaschäden nahezu verdoppelt.
Insgesamt unterstreichen die Ergebnisse dieser Arbeit die Notwendigkeit der Anpassung an klimabedingte Extremwetterereignisse. Dazu müssen lokale, physikalische Anpassungsmaßnahmen durch regionale und globale Politikinstrumente ergänzt werden, um das globale Versorgungsnetzwerk adäquat auf den Klimawandel vorzubereiten.
KW  - climate change
KW  - river floods
KW  - higher-order effects
KW  - economic network
KW  - climate impacts
KW  - Klimawandel
KW  - Überschwemmungen
KW  - Wirtschaftsnetzwerk
Y1  - 2018
ER  - 
TY  - RPRT
A1  - Ludolph, Lars
A1  - Šedová, Barbora
T1  - Global food prices, local weather and migration in Sub-Saharan Africa
T2  - CEPA Discussion Papers
N2  - In this paper, we study the effect of exogenous global crop price changes on migration from agricultural and non-agricultural households in Sub-Saharan Africa. We show that, similar to the effect of positive local weather shocks, the effect of a locally-relevant global crop price increase on household out-migration depends on the initial household wealth. Higher international producer prices relax the budget constraint of poor agricultural households and facilitate migration. The order of magnitude of a standardized price effect is approx. one third of the standardized effect of a local weather shock. Unlike positive weather shocks, which mostly facilitate internal rural-urban migration, positive income shocks through rising producer prices only increase migration to neighboring African countries, likely due to the simultaneous decrease in real income in nearby urban areas. Finally, we show that while higher producer prices induce conflict, conflict does not play a role for the household decision to send a member as a labor migrant.
T3  - CEPA Discussion Papers - 26 
KW  - labour migration
KW  - food prices
KW  - climate
KW  - Africa
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-494946
SN  - 2628-653X
IS  - 26
ER  - 
TY  - RPRT
A1  - Bachelet, Marion
A1  - Kalkuhl, Matthias
A1  - Koch, Nicolas
T1  - What if working from home will stick?
BT  - Distributional and climate impacts for Germany
T2  - CEPA Discussion Papers
N2  - The COVID-19 pandemic created the largest experiment in working from home. We study how persistent telework may change energy and transport consumption and costs in Germany to assess the distributional and environmental implications when working from home will stick. Based on data from the German Microcensus and available classifications of working-from-home feasibility for different occupations, we calculate the change in energy consumption and travel to work when 15% of employees work full time from home. Our findings suggest that telework translates into an annual increase in heating energy expenditure of 110 euros per worker and a decrease in transport expenditure of 840 euros per worker. All income groups would gain from telework but high-income workers gain twice as much as low-income workers. The value of time saving is between 1.3 and 6 times greater than the savings from reduced travel costs and almost 9 times higher for high-income workers than low-income workers. The direct effects on CO₂ emissions due to reduced car commuting amount to 4.5 millions tons of CO₂, representing around 3 percent of carbon emissions in the transport sector.
T3  - CEPA Discussion Papers - 41 
KW  - commuting
KW  - home office
KW  - COVID-19
KW  - energy expenditure
KW  - carbon emissions
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-532384
SN  - 2628-653X
IS  - 41
ER  - 
TY  - RPRT
A1  - Kalkuhl, Matthias
A1  - Franks, Max
A1  - Gruner, Friedemann
A1  - Lessmann, Kai
A1  - Edenhofer, Ottmar
T1  - Pigou’s Advice and Sisyphus’ Warning
BT  - Carbon Pricing with Non-Permanent Carbon-Dioxide Removal
T2  - CEPA Discussion Papers
N2  - Carbon dioxide removal from the atmosphere is becoming an important option to achieve net zero climate targets. This paper develops a welfare and public economics perspective on optimal policies for carbon removal and storage in non-permanent sinks like forests, soil, oceans, wood products or chemical products. We derive a new metric for the valuation of non-permanent carbon storage, the social cost of carbon removal (SCC-R), which embeds also the conventional social cost of carbon emissions. We show that the contribution of CDR is to create new carbon sinks that should be used to reduce transition costs, even if the stored carbon is released to the atmosphere eventually. Importantly, CDR does not raise the ambition of optimal temperature levels unless initial atmospheric carbon stocks are excessively high. For high initial atmospheric carbon stocks, CDR allows to reduce the optimal temperature below initial levels. Finally, we characterize three different policy regimes that ensure an optimal deployment of carbon removal: downstream carbon pricing, upstream carbon pricing, and carbon storage pricing. The policy regimes differ in their informational and institutional requirements regarding monitoring, liability and financing.
T3  - CEPA Discussion Papers - 62 
KW  - Carbon Dioxide Removal
KW  - Carbon Capture
KW  - Social Cost of Carbon
KW  - Climate Policy
KW  - Impermanence
Y1  - 2023
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-575882
SN  - 2628-653X
IS  - 62
ER  - 
TY  - RPRT
A1  - Šedová, Barbora
A1  - Čizmaziová, Lucia
A1  - Cook, Athene
T1  - A meta-analysis of climate migration literature
T2  - CEPA Discussion Papers
N2  - The large literature that aims to find evidence of climate migration delivers mixed findings. This meta-regression analysis i) summarizes direct links between adverse climatic events and migration, ii) maps patterns of climate migration, and iii) explains the variation in outcomes. Using a set of limited dependent variable models, we meta-analyze thus-far the most comprehensive sample of 3,625 estimates from 116 original studies and produce novel insights on climate migration. We find that extremely high temperatures and drying conditions increase migration. We do not find a significant effect of sudden-onset events. Climate migration is most likely to emerge due to contemporaneous events, to originate in rural areas and to take place in middle-income countries, internally, to cities. The likelihood to become trapped in affected areas is higher for women and in low-income countries, particularly in Africa. We uniquely quantify how pitfalls typical for the broader empirical climate impact literature affect climate migration findings. We also find evidence of different publication biases.
T3  - CEPA Discussion Papers - 29 
KW  - migration
KW  - climate change
KW  - meta-analysis
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-499827
SN  - 2628-653X
IS  - 29
ER  - 
TY  - JOUR
A1  - Mahlkow, Hendrik
A1  - Petersen, Thieß
A1  - Wanner, Joschka
T1  - Folgen eines höheren CO2-Preises in der EU
BT  - wer gewinnt, wer verliert?
JF  - Wirtschaftsdienst
N2  - Damit die EU ihre ambitionierten Klimaschutzziele erreichen kann, werden die Preise für Treibhausgasemissionen in den nächsten Jahren spürbar steigen. Das hat ökonomische Auswirkungen für die EU-Mitgliedsländer, aber auch den Rest der Welt. Einzelne Sektoren und auch Volkswirtschaften werden davon unterschiedlich stark getroffen.
N2  - If the EU is to achieve its ambitious climate protection targets, prices for greenhouse gas emissions will rise noticeably in the next few years. This has economic implications not only for the EU member countries, but also for the rest of the world. This article presents the results of simulations covering 141 countries/regions and 65 economic sectors. The economic impact of the EU increasing its carbon price by $50 is calculated. In addition to the effects on real GDP and sectoral production, the consequences for the volume of emissions are also calculated. The carbon price increase is found to effectively bring down emissions, though with non-negligible leakage effects and at very heterogenous costs, both across countries and across sectors.
Y1  - 2021
U6  - https://doi.org/10.1007/s10273-021-3048-5
SN  - 0043-6275
SN  - 1613-978X
VL  - 101
IS  - 11
SP  - 870
EP  - 877
PB  - ZBW
CY  - Hamburg
ER  -