---
_id: '12853'
abstract:
- lang: eng
text: Lentic waters integrate atmosphere and catchment processes, and thus ultimately
capture climate signals. However, studies of climate warming effects on lentic
waters usually do not sufficiently account for a change in heat flux from the
catchment through altered inflow temperature and discharge under climate change.
This is particularly relevant for reservoirs, which are highly impacted by catchment
hydrology and may be affected by upstream reservoirs or pre‐dams. This study explicitly
quantified how the catchment and pre‐dams modify the thermal response of Rappbode
Reservoir, Germany's largest drinking water reservoir system, to climate change.
We established a catchment‐lake modeling chain in the main reservoir and its two
pre‐dams utilizing the lake model GOTM, the catchment model mHM, and the stream
temperature model Air2stream, forced by an ensemble of climate projections under
RCP2.6 and 8.5 warming scenarios. Results exhibited a warming of 0.27/0.15°C decade−1
for the surface/bottom temperatures of the main reservoir, with approximately
8%/24% of this warming attributed to the catchment warming, respectively. The
catchment warming amplified the deep water warming more than at the surface, contrary
to the atmospheric warming effect, and advanced stratification by about 1 week,
while having a minor impact on stratification intensity. On the other hand, pre‐dams
reduced the inflow temperature into the main reservoir in spring, and consequently
lowered the hypolimnetic temperature and postponed stratification onset. This
shielded the main reservoir from climate warming, although overall the contribution
of pre‐dams was minimal. Altogether, our study highlights the importance of catchment
alterations and seasonality when projecting reservoir warming, and provides insights
into catchment‐reservoir coupling under climate change.
article_number: e2023WR036808
author:
- first_name: Bo
full_name: Gai, Bo
last_name: Gai
- first_name: Rohini
full_name: Kumar, Rohini
last_name: Kumar
- first_name: Frank
full_name: Hüesker, Frank
last_name: Hüesker
- first_name: Chenxi
full_name: Mi, Chenxi
last_name: Mi
- first_name: Xiangzhen
full_name: Kong, Xiangzhen
last_name: Kong
- first_name: Bertram
full_name: Boehrer, Bertram
last_name: Boehrer
- first_name: Karsten
full_name: Rinke, Karsten
last_name: Rinke
- first_name: Tom
full_name: Shatwell, Tom
id: '86424'
last_name: Shatwell
orcid: 0000-0002-4520-7916
citation:
ama: 'Gai B, Kumar R, Hüesker F, et al. Catchments Amplify Reservoir Thermal Response
to Climate Warming. Water resources research : an AGU journal. 2025;61(1).
doi:10.1029/2023wr036808'
apa: 'Gai, B., Kumar, R., Hüesker, F., Mi, C., Kong, X., Boehrer, B., Rinke, K.,
& Shatwell, T. (2025). Catchments Amplify Reservoir Thermal Response to Climate
Warming. Water Resources Research : An AGU Journal, 61(1), Article
e2023WR036808. https://doi.org/10.1029/2023wr036808'
bjps: 'Gai B et al. (2025) Catchments Amplify Reservoir Thermal Response
to Climate Warming. Water resources research : an AGU journal 61.'
chicago: 'Gai, Bo, Rohini Kumar, Frank Hüesker, Chenxi Mi, Xiangzhen Kong, Bertram
Boehrer, Karsten Rinke, and Tom Shatwell. “Catchments Amplify Reservoir Thermal
Response to Climate Warming.” Water Resources Research : An AGU Journal
61, no. 1 (2025). https://doi.org/10.1029/2023wr036808.'
chicago-de: 'Gai, Bo, Rohini Kumar, Frank Hüesker, Chenxi Mi, Xiangzhen Kong, Bertram
Boehrer, Karsten Rinke und Tom Shatwell. 2025. Catchments Amplify Reservoir Thermal
Response to Climate Warming. Water resources research : an AGU journal
61, Nr. 1. doi:10.1029/2023wr036808,
.'
din1505-2-1: 'Gai, Bo ; Kumar,
Rohini ; Hüesker, Frank ;
Mi, Chenxi ; Kong,
Xiangzhen ; Boehrer, Bertram
; Rinke, Karsten ; Shatwell,
Tom: Catchments Amplify Reservoir Thermal Response to Climate Warming.
In: Water resources research : an AGU journal Bd. 61. New York, NY, American
Geophysical Union (AGU) (2025), Nr. 1'
havard: 'B. Gai, R. Kumar, F. Hüesker, C. Mi, X. Kong, B. Boehrer, K. Rinke, T.
Shatwell, Catchments Amplify Reservoir Thermal Response to Climate Warming,
Water Resources Research : An AGU Journal. 61 (2025).'
ieee: 'B. Gai et al., “Catchments Amplify Reservoir Thermal Response to Climate
Warming,” Water resources research : an AGU journal, vol. 61, no. 1,
Art. no. e2023WR036808, 2025, doi: 10.1029/2023wr036808.'
mla: 'Gai, Bo, et al. “Catchments Amplify Reservoir Thermal Response to Climate
Warming.” Water Resources Research : An AGU Journal, vol. 61, no. 1,
e2023WR036808, 2025, https://doi.org/10.1029/2023wr036808.'
short: 'B. Gai, R. Kumar, F. Hüesker, C. Mi, X. Kong, B. Boehrer, K. Rinke, T. Shatwell,
Water Resources Research : An AGU Journal 61 (2025).'
ufg: 'Gai, Bo u. a.: Catchments Amplify Reservoir Thermal Response to Climate
Warming, in: Water resources research : an AGU journal 61 (2025), H.
1.'
van: 'Gai B, Kumar R, Hüesker F, Mi C, Kong X, Boehrer B, et al. Catchments Amplify
Reservoir Thermal Response to Climate Warming. Water resources research : an
AGU journal. 2025;61(1).'
date_created: 2025-04-24T06:22:35Z
date_updated: 2025-06-24T14:14:26Z
department:
- _id: DEP8000
- _id: DEP8022
doi: 10.1029/2023wr036808
external_id:
isi:
- '001390720200001'
intvolume: ' 61'
isi: '1'
issue: '1'
keyword:
- climate change
- coupled catchment-lake model
- thermal characteristics
- drinking water reservoir management
- GOTMstratification
language:
- iso: eng
place: New York, NY
publication: ' Water resources research : an AGU journal'
publication_identifier:
eissn:
- 1944-7973
issn:
- 0043-1397
publication_status: published
publisher: American Geophysical Union (AGU)
status: public
title: Catchments Amplify Reservoir Thermal Response to Climate Warming
type: scientific_journal_article
user_id: '83781'
volume: 61
year: '2025'
...
---
_id: '12855'
abstract:
- lang: eng
text: Global warming is shifting the thermal dynamics of lakes, with resulting climatic
variability heavily affecting their mixing dynamics. We present a dual ensemble
workflow coupling climate models with lake models. We used a large set of simulations
across multiple domains, multi‐scenario, and multi GCM‐ RCM combinations from
CORDEX data. We forced a set of multiple hydrodynamic lake models by these multiple
climate simulations to explore climate change impacts on lakes. We also quantified
the contributions from the different models to the overall uncertainty. We employed
this workflow to investigate the effects of climate change on Lake Sevan (Armenia).
We predicted for the end of the 21st century, under RCP 8.5, a sharp increase
in surface temperature and substantial bottom warming , longer stratification
periods (+55 days) and disappearance of ice cover leading to a shift in mixing
regime. Increased insufficient cooling during warmer winters points to the vulnerability
of Lake Sevan to climate change. Our workflow leverages the strengths of multiple
models at several levels of the model chain to provide a more robust projection
and at the same time a better uncertainty estimate that accounts for the contributions
of the different model levels to overall uncertainty. Although for specific variables,
for example, summer bottom temperature, single lake models may perform better,
the full ensemble provides a robust estimate of thermal dynamics that has a high
transferability so that our workflow can be a blueprint for climate impact studies
in other systems.
author:
- first_name: Muhammed
full_name: Shikhani, Muhammed
last_name: Shikhani
- first_name: Johannes
full_name: Feldbauer, Johannes
last_name: Feldbauer
- first_name: Robert
full_name: Ladwig, Robert
last_name: Ladwig
- first_name: Daniel
full_name: Mercado‐Bettín, Daniel
last_name: Mercado‐Bettín
- first_name: Tadhg N.
full_name: Moore, Tadhg N.
last_name: Moore
- first_name: Artur
full_name: Gevorgyan, Artur
last_name: Gevorgyan
- first_name: Amalya
full_name: Misakyan, Amalya
last_name: Misakyan
- first_name: Chenxi
full_name: Mi, Chenxi
last_name: Mi
- first_name: Martin
full_name: Schultze, Martin
last_name: Schultze
- first_name: Bertram
full_name: Boehrer, Bertram
last_name: Boehrer
- first_name: Tom
full_name: Shatwell, Tom
id: '86424'
last_name: Shatwell
orcid: 0000-0002-4520-7916
- first_name: Klemens
full_name: Barfus, Klemens
last_name: Barfus
- first_name: Karsten
full_name: Rinke, Karsten
last_name: Rinke
citation:
ama: 'Shikhani M, Feldbauer J, Ladwig R, et al. Combining a Multi‐Lake Model Ensemble
and a Multi‐Domain CORDEX Climate Data Ensemble for Assessing Climate Change Impacts
on Lake Sevan. Water resources research : an AGU journal. 2024;60(11).
doi:10.1029/2023wr036511'
apa: 'Shikhani, M., Feldbauer, J., Ladwig, R., Mercado‐Bettín, D., Moore, T. N.,
Gevorgyan, A., Misakyan, A., Mi, C., Schultze, M., Boehrer, B., Shatwell, T.,
Barfus, K., & Rinke, K. (2024). Combining a Multi‐Lake Model Ensemble and
a Multi‐Domain CORDEX Climate Data Ensemble for Assessing Climate Change Impacts
on Lake Sevan. Water Resources Research : An AGU Journal, 60(11).
https://doi.org/10.1029/2023wr036511'
bjps: 'Shikhani M et al. (2024) Combining a Multi‐Lake Model Ensemble
and a Multi‐Domain CORDEX Climate Data Ensemble for Assessing Climate Change Impacts
on Lake Sevan. Water resources research : an AGU journal 60.'
chicago: 'Shikhani, Muhammed, Johannes Feldbauer, Robert Ladwig, Daniel Mercado‐Bettín,
Tadhg N. Moore, Artur Gevorgyan, Amalya Misakyan, et al. “Combining a Multi‐Lake
Model Ensemble and a Multi‐Domain CORDEX Climate Data Ensemble for Assessing Climate
Change Impacts on Lake Sevan.” Water Resources Research : An AGU Journal
60, no. 11 (2024). https://doi.org/10.1029/2023wr036511.'
chicago-de: 'Shikhani, Muhammed, Johannes Feldbauer, Robert Ladwig, Daniel Mercado‐Bettín,
Tadhg N. Moore, Artur Gevorgyan, Amalya Misakyan, u. a. 2024. Combining a Multi‐Lake
Model Ensemble and a Multi‐Domain CORDEX Climate Data Ensemble for Assessing Climate
Change Impacts on Lake Sevan. Water resources research : an AGU journal
60, Nr. 11. doi:10.1029/2023wr036511,
.'
din1505-2-1: 'Shikhani,
Muhammed ; Feldbauer, Johannes
; Ladwig, Robert ; Mercado‐Bettín,
Daniel ; Moore, Tadhg N.
; Gevorgyan, Artur ; Misakyan,
Amalya ; Mi, Chenxi ; u. a.:
Combining a Multi‐Lake Model Ensemble and a Multi‐Domain CORDEX Climate Data Ensemble
for Assessing Climate Change Impacts on Lake Sevan. In: Water resources research :
an AGU journal Bd. 60. New York, NY, American Geophysical Union (AGU) (2024),
Nr. 11'
havard: 'M. Shikhani, J. Feldbauer, R. Ladwig, D. Mercado‐Bettín, T.N. Moore, A.
Gevorgyan, A. Misakyan, C. Mi, M. Schultze, B. Boehrer, T. Shatwell, K. Barfus,
K. Rinke, Combining a Multi‐Lake Model Ensemble and a Multi‐Domain CORDEX Climate
Data Ensemble for Assessing Climate Change Impacts on Lake Sevan, Water Resources
Research : An AGU Journal. 60 (2024).'
ieee: 'M. Shikhani et al., “Combining a Multi‐Lake Model Ensemble and a Multi‐Domain
CORDEX Climate Data Ensemble for Assessing Climate Change Impacts on Lake Sevan,”
Water resources research : an AGU journal, vol. 60, no. 11, 2024, doi:
10.1029/2023wr036511.'
mla: 'Shikhani, Muhammed, et al. “Combining a Multi‐Lake Model Ensemble and a Multi‐Domain
CORDEX Climate Data Ensemble for Assessing Climate Change Impacts on Lake Sevan.”
Water Resources Research : An AGU Journal, vol. 60, no. 11, 2024, https://doi.org/10.1029/2023wr036511.'
short: 'M. Shikhani, J. Feldbauer, R. Ladwig, D. Mercado‐Bettín, T.N. Moore, A.
Gevorgyan, A. Misakyan, C. Mi, M. Schultze, B. Boehrer, T. Shatwell, K. Barfus,
K. Rinke, Water Resources Research : An AGU Journal 60 (2024).'
ufg: 'Shikhani, Muhammed u. a.: Combining a Multi‐Lake Model Ensemble and
a Multi‐Domain CORDEX Climate Data Ensemble for Assessing Climate Change Impacts
on Lake Sevan, in: Water resources research : an AGU journal 60 (2024),
H. 11.'
van: 'Shikhani M, Feldbauer J, Ladwig R, Mercado‐Bettín D, Moore TN, Gevorgyan A,
et al. Combining a Multi‐Lake Model Ensemble and a Multi‐Domain CORDEX Climate
Data Ensemble for Assessing Climate Change Impacts on Lake Sevan. Water resources
research : an AGU journal. 2024;60(11).'
date_created: 2025-04-24T06:41:06Z
date_updated: 2025-06-25T13:09:00Z
department:
- _id: DEP8000
- _id: DEP8022
doi: 10.1029/2023wr036511
external_id:
isi:
- '001370328800001'
pmid:
- '39582854'
intvolume: ' 60'
isi: '1'
issue: '11'
keyword:
- multi model ensemble (MME)
- CORDEX
- LakeEnsemblR
- lake modeling
- climate change impacts
- variance decomposition
language:
- iso: eng
place: New York, NY
pmid: '1'
publication: 'Water resources research : an AGU journal'
publication_identifier:
eissn:
- 1944-7973
issn:
- 0043-1397
publication_status: published
publisher: American Geophysical Union (AGU)
quality_controlled: '1'
status: public
title: Combining a Multi‐Lake Model Ensemble and a Multi‐Domain CORDEX Climate Data
Ensemble for Assessing Climate Change Impacts on Lake Sevan
type: scientific_journal_article
user_id: '83781'
volume: 60
year: '2024'
...
---
_id: '10784'
abstract:
- lang: eng
text: "Replacing carbon-based fuels with hydrogen will not sustainably prevent an
ice cube from melting, as CO2 is just one of the (many) causes of human-caused
climate change.\r\nFrom an energetic and climatic point of view, it does not matter
whether the heat input into the atmosphere occurs through the combustion of fossil
carbon or through the combustion of hydrogen (which is difficult to produce):\r\nThe
desired decarbonization alone cannot slow the speed of climate change in our time.
Whether global primary energy consumption is based on carbon or hydrogen remains
irrelevant to the lifetime of the heat-storing CO2 molecules in atmosphere. Several
literature sources on the lifetime of CO2 in the atmosphere vary between a few
decades and 1000 years. It is possible that the differences in lifetime are due
to the fact that different system boundaries are taken into account.\r\nThe start
of slowing climate change the day after CO2 is no longer released into the atmosphere
will certainly only have noticeable consequences several generations later.\r\nFrom
today's perspective, the hydrogen-based energy economy cannot be an equivalent
replacement for a carbon-based energy economy, but rather only an intermediate
step on the way to greater energy efficiency. Energy efficiency means that the
ratio between the effort for “energy production” (actually energy conversion)
and the benefit as “energy use” (proportion of energy that can be converted into
work) must decrease significantly. How? For example, by developing more energy-efficient
processes and machines, improving heat storage, using CO2-free renewable energies
and using waste heat as much as possible.\r\nSustainability is nothing more than
common sense and concerning the use of energy it means daring to be more energetically
truthful through greater energy efficiency.\r\n"
- lang: ger
text: "Der Ersatz kohlenstoffbasierter Kraftstoffe durch Wasserstoff wird das Schmelzen
eines Eiswürfels nicht nachhaltig verhindern, da CO2 nur eine der (vielen) Ursachen
des vom Menschen verursachten Klimawandels ist.\r\nAus energetischer und klimatischer
Sicht spielt es keine Rolle, ob der Wärmeeintrag in die Atmosphäre durch die Verbrennung
von fossilem Kohlenstoff oder durch die Verbrennung von (schwer herzustellendem)
Wasserstoff erfolgt:\r\nDie angestrebte Dekarbonisierung allein kann die Geschwindigkeit
des Klimawandels in unserer Zeit nicht bremsen. Ob der weltweite Primärenergieverbrauch
auf Kohlenstoff oder Wasserstoff basiert, bleibt für die Lebensdauer der wärmespeichernden
CO2-Moleküle in der Atmosphäre unerheblich. Die Literaturquellen zur Lebensdauer
von CO2 in der Atmosphäre schwanken zwischen einigen Jahrzehnten und 1000 Jahren.
Möglicherweise sind die Unterschiede in der Lebensdauer darauf zurückzuführen,
dass unterschiedliche Systemgrenzen berücksichtigt werden.\r\nDer Beginn der Verlangsamung
des Klimawandels am Tag, nachdem kein CO2 mehr in die Atmosphäre freigesetzt wird,
wird sicherlich erst einige Generationen später spürbare Folgen haben.\r\nAus
heutiger Sicht kann die wasserstoffbasierte Energiewirtschaft kein gleichwertiger
Ersatz für eine kohlenstoffbasierte Energiewirtschaft sein, sondern nur ein Zwischenschritt
auf dem Weg zu mehr Energieeffizienz. Energieeffizienz bedeutet, dass das Verhältnis
zwischen dem Aufwand für die „Energieerzeugung“ (eigentlich Energieumwandlung)
und dem Nutzen als „Energienutzung“ (Anteil der Energie, die in Arbeit umgewandelt
werden kann) deutlich sinken muss. Wie? Zum Beispiel durch die Entwicklung energieeffizienterer
Prozesse und Maschinen, die Verbesserung der Wärmespeicherung, die Nutzung CO2-freier
erneuerbarer Energien und die weitestgehende Nutzung von Abwärme.\r\nNachhaltigkeit
ist nichts anderes, als gesunder Menschenverstand und bedeutet auch, durch mehr
Energieeffizienz mehr energetische Wahrhaftigkeit zu wagen.\r\n"
author:
- first_name: Manfred
full_name: Sietz, Manfred
id: '21016'
last_name: Sietz
citation:
ama: Sietz M. Von grünem Wasserstoff und farblosem CO2. Technische Hochschule
Ostwestfalen-Lippe; 2023.
apa: Sietz, M. (2023). Von grünem Wasserstoff und farblosem CO2. Technische
Hochschule Ostwestfalen-Lippe.
bjps: 'Sietz M (2023) Von grünem Wasserstoff und farblosem CO2. Höxter:
Technische Hochschule Ostwestfalen-Lippe.'
chicago: 'Sietz, Manfred. Von grünem Wasserstoff und farblosem CO2. Höxter:
Technische Hochschule Ostwestfalen-Lippe, 2023.'
chicago-de: 'Sietz, Manfred. 2023. Von grünem Wasserstoff und farblosem CO2.
Höxter: Technische Hochschule Ostwestfalen-Lippe.'
din1505-2-1: 'Sietz, Manfred: Von
grünem Wasserstoff und farblosem CO2. Höxter : Technische Hochschule Ostwestfalen-Lippe,
2023'
havard: M. Sietz, Von grünem Wasserstoff und farblosem CO2, Technische Hochschule
Ostwestfalen-Lippe, Höxter, 2023.
ieee: 'M. Sietz, Von grünem Wasserstoff und farblosem CO2. Höxter: Technische
Hochschule Ostwestfalen-Lippe, 2023.'
mla: Sietz, Manfred. Von grünem Wasserstoff und farblosem CO2. Technische
Hochschule Ostwestfalen-Lippe, 2023.
short: M. Sietz, Von grünem Wasserstoff und farblosem CO2, Technische Hochschule
Ostwestfalen-Lippe, Höxter, 2023.
ufg: 'Sietz, Manfred: Von grünem Wasserstoff und farblosem CO2, Höxter 2023.'
van: 'Sietz M. Von grünem Wasserstoff und farblosem CO2. Höxter: Technische Hochschule
Ostwestfalen-Lippe; 2023. 8 p.'
date_created: 2023-11-20T07:33:17Z
date_updated: 2023-12-07T10:27:14Z
ddc:
- '540'
department:
- _id: DEP8011
file:
- access_level: open_access
content_type: application/vnd.openxmlformats-officedocument.wordprocessingml.document
creator: adm-6bl-f5s
date_created: 2023-11-22T09:11:47Z
date_updated: 2023-11-22T09:11:47Z
file_id: '10796'
file_name: Von grünem Wasserstoff und farblosem CO2-1.docx
file_size: 188355
relation: main_file
success: 1
file_date_updated: 2023-11-22T09:11:47Z
has_accepted_license: '1'
keyword:
- Grüner Wasserstoff
- Decarbonisierung
- Klimawandel
- Meeresspiegelerhöhung
- Nachhaltigkeit
- green hydrogen
- decarbonization
- climate change
- sea level rise
- sustainability
language:
- iso: ger
main_file_link:
- open_access: '1'
oa: '1'
page: '8'
place: Höxter
publication_status: published
publisher: Technische Hochschule Ostwestfalen-Lippe
status: public
title: Von grünem Wasserstoff und farblosem CO2
type: research_paper
user_id: '83780'
year: '2023'
...
---
_id: '12900'
abstract:
- lang: eng
text: Green (and blue) spaces receive attention as important components of cities
that can help to mitigate the effects of climate change, support biodiversity
and improve public health. Green space planning aims to transform cities towards
urban sustainability and resilience. In a longitudinal study, representatives
from eleven European municipalities that had previously been interviewed in 2014
were re-interviewed in 2020–2021 on changes in urban greening and related practices.
The interviewees reported mainly advancements in dealing with ecological issues,
such as new plans, strategies, regulations or funding programmes for climate adaptation
or biodiversity support, as well as some progress in co-governance with non-governmental
stakeholders. Promising developments include breaking professional silos by creating
new units that can better deal with complex urban issues. In a few cases, high-level
local politicians induced profound changes. These changes stimulated the development
of new planning and governance cultures, resulting in more co-creation of urban
green spaces. However, from a transformation studies perspective, incremental
strategies dominate, and even when municipal representatives are aware that substantive
changes are needed, they often lack the means to act. For more radical system
change, significant extra efforts are needed.
author:
- first_name: Rieke
full_name: Hansen, Rieke
last_name: Hansen
- first_name: Marleen
full_name: Buizer, Marleen
last_name: Buizer
- first_name: Arjen
full_name: Buijs, Arjen
last_name: Buijs
- first_name: Stephan
full_name: Pauleit, Stephan
last_name: Pauleit
- first_name: Thomas
full_name: Mattijssen, Thomas
last_name: Mattijssen
- first_name: Hanna
full_name: Fors, Hanna
last_name: Fors
- first_name: Alexander
full_name: van der Jagt, Alexander
last_name: van der Jagt
- first_name: Nadja
full_name: Kabisch, Nadja
last_name: Kabisch
- first_name: Mandy
full_name: Cook, Mandy
last_name: Cook
- first_name: Tim
full_name: Delshammar, Tim
last_name: Delshammar
- first_name: Thomas B.
full_name: Randrup, Thomas B.
last_name: Randrup
- first_name: Sabrina
full_name: Erlwein, Sabrina
last_name: Erlwein
- first_name: Kati
full_name: Vierikko, Kati
last_name: Vierikko
- first_name: Hanna
full_name: Nieminen, Hanna
last_name: Nieminen
- first_name: Johannes
full_name: Langemeyer, Johannes
last_name: Langemeyer
- first_name: Camille
full_name: Soson Texereau, Camille
last_name: Soson Texereau
- first_name: Ana Catarina
full_name: Luz, Ana Catarina
last_name: Luz
- first_name: Mojca
full_name: Nastran, Mojca
last_name: Nastran
- first_name: Anton Stahl
full_name: Olafsson, Anton Stahl
last_name: Olafsson
- first_name: Maja
full_name: Steen Møller, Maja
last_name: Steen Møller
- first_name: Dagmar
full_name: Haase, Dagmar
last_name: Haase
- first_name: Werner
full_name: Rolf, Werner
id: '86423'
last_name: Rolf
orcid: 0000-0001-7040-034X
- first_name: Bianca
full_name: Ambrose-Oji, Bianca
last_name: Ambrose-Oji
- first_name: Cristina
full_name: Branquinho, Cristina
last_name: Branquinho
- first_name: Gilles
full_name: Havik, Gilles
last_name: Havik
- first_name: Jakub
full_name: Kronenberg, Jakub
last_name: Kronenberg
- first_name: Cecil
full_name: Konijnendijk, Cecil
last_name: Konijnendijk
citation:
ama: Hansen R, Buizer M, Buijs A, et al. Transformative or piecemeal? Changes in
green space planning and governance in eleven European cities. European Planning
Studies. 2023;31(12):2401-2424. doi:10.1080/09654313.2022.2139594
apa: Hansen, R., Buizer, M., Buijs, A., Pauleit, S., Mattijssen, T., Fors, H., van
der Jagt, A., Kabisch, N., Cook, M., Delshammar, T., Randrup, T. B., Erlwein,
S., Vierikko, K., Nieminen, H., Langemeyer, J., Soson Texereau, C., Luz, A. C.,
Nastran, M., Olafsson, A. S., … Konijnendijk, C. (2023). Transformative or piecemeal?
Changes in green space planning and governance in eleven European cities. European
Planning Studies, 31(12), 2401–2424. https://doi.org/10.1080/09654313.2022.2139594
bjps: Hansen R et al. (2023) Transformative or Piecemeal? Changes
in Green Space Planning and Governance in Eleven European Cities. European
Planning Studies 31, 2401–2424.
chicago: 'Hansen, Rieke, Marleen Buizer, Arjen Buijs, Stephan Pauleit, Thomas Mattijssen,
Hanna Fors, Alexander van der Jagt, et al. “Transformative or Piecemeal? Changes
in Green Space Planning and Governance in Eleven European Cities.” European
Planning Studies 31, no. 12 (2023): 2401–24. https://doi.org/10.1080/09654313.2022.2139594.'
chicago-de: 'Hansen, Rieke, Marleen Buizer, Arjen Buijs, Stephan Pauleit, Thomas
Mattijssen, Hanna Fors, Alexander van der Jagt, u. a. 2023. Transformative or
piecemeal? Changes in green space planning and governance in eleven European cities.
European Planning Studies 31, Nr. 12: 2401–2424. doi:10.1080/09654313.2022.2139594,
.'
din1505-2-1: 'Hansen,
Rieke ; Buizer, Marleen ;
Buijs, Arjen ; Pauleit,
Stephan ; Mattijssen, Thomas
; Fors, Hanna ; van
der Jagt, Alexander ; Kabisch, Nadja
; u. a.: Transformative or piecemeal? Changes in green space planning and
governance in eleven European cities. In: European Planning Studies Bd.
31. London [u.a.] , Taylor & Francis (2023), Nr. 12, S. 2401–2424'
havard: R. Hansen, M. Buizer, A. Buijs, S. Pauleit, T. Mattijssen, H. Fors, A. van
der Jagt, N. Kabisch, M. Cook, T. Delshammar, T.B. Randrup, S. Erlwein, K. Vierikko,
H. Nieminen, J. Langemeyer, C. Soson Texereau, A.C. Luz, M. Nastran, A.S. Olafsson,
M. Steen Møller, D. Haase, W. Rolf, B. Ambrose-Oji, C. Branquinho, G. Havik, J.
Kronenberg, C. Konijnendijk, Transformative or piecemeal? Changes in green space
planning and governance in eleven European cities, European Planning Studies.
31 (2023) 2401–2424.
ieee: 'R. Hansen et al., “Transformative or piecemeal? Changes in green space
planning and governance in eleven European cities,” European Planning Studies,
vol. 31, no. 12, pp. 2401–2424, 2023, doi: 10.1080/09654313.2022.2139594.'
mla: Hansen, Rieke, et al. “Transformative or Piecemeal? Changes in Green Space
Planning and Governance in Eleven European Cities.” European Planning Studies,
vol. 31, no. 12, 2023, pp. 2401–24, https://doi.org/10.1080/09654313.2022.2139594.
short: R. Hansen, M. Buizer, A. Buijs, S. Pauleit, T. Mattijssen, H. Fors, A. van
der Jagt, N. Kabisch, M. Cook, T. Delshammar, T.B. Randrup, S. Erlwein, K. Vierikko,
H. Nieminen, J. Langemeyer, C. Soson Texereau, A.C. Luz, M. Nastran, A.S. Olafsson,
M. Steen Møller, D. Haase, W. Rolf, B. Ambrose-Oji, C. Branquinho, G. Havik, J.
Kronenberg, C. Konijnendijk, European Planning Studies 31 (2023) 2401–2424.
ufg: 'Hansen, Rieke u. a.: Transformative or piecemeal? Changes in green
space planning and governance in eleven European cities, in: European Planning
Studies 31 (2023), H. 12, S. 2401–2424.'
van: Hansen R, Buizer M, Buijs A, Pauleit S, Mattijssen T, Fors H, et al. Transformative
or piecemeal? Changes in green space planning and governance in eleven European
cities. European Planning Studies. 2023;31(12):2401–24.
date_created: 2025-05-08T12:03:02Z
date_updated: 2026-03-26T09:48:50Z
department:
- _id: DEP9000
- _id: DEP9012
doi: 10.1080/09654313.2022.2139594
extern: '1'
intvolume: ' 31'
issue: '12'
keyword:
- Co-governance
- participation
- climate change
- sustainability transformations
- green infrastructure
language:
- iso: eng
page: 2401-2424
place: 'London [u.a.] '
publication: European Planning Studies
publication_identifier:
eissn:
- 1469-5944
issn:
- 0965-4313
publication_status: published
publisher: Taylor & Francis
quality_controlled: '1'
status: public
title: Transformative or piecemeal? Changes in green space planning and governance
in eleven European cities
type: scientific_journal_article
user_id: '86423'
volume: 31
year: '2023'
...
---
_id: '12221'
abstract:
- lang: eng
text: 'Lake evaporation plays an important role in the water budget of lakes. Predicting
lake evaporation responses to climate change is thus of paramount importance for
the planning of mitigation and adaption strategies. However, most studies that
have simulated climate change impacts on lake evaporation have typically utilised
a single mechanistic model. Whilst such studies have merit, projected changes
in lake evaporation from any single lake model can be considered uncertain. To
better understand evaporation responses to climate change, a multi-model approach
(i.e., where a range of projections are considered), is desirable. In this study,
we present such multi-model analysis, where five lake models forced by four different
climate model projections are used to simulate historic and future change (1901–2099)
in lake evaporation. Our investigation, which focuses on sub-tropical Lake Kinneret
(Israel), suggested considerable differences in simulated evaporation rates among
the models, with the annual average evaporation rates varying between 1232 mm
year−1 and 2608 mm year−1 during the historic period (1901–2005). We explored
these differences by comparing the models with reference evaporation rates estimated
using in-situ data (2000–2005) and a bulk aerodynamic algorithm. We found that
the model ensemble generally captured the intra-annual variability in reference
evaporation rates, and compared well at seasonal timescales (RMSEc = 0.19, R =
0.92). Using the model ensemble, we then projected future change in evaporation
rates under three different Representative Concentration Pathway (RCP) scenarios:
RCP 2.6, 6.0 and 8.5. Our projections indicated that, by the end of the 21st century
(2070–2099), annual average evaporation rates would increase in Lake Kinneret
by 9–22 % under RCPs 2.6–8.5. When compared with projected regional declines in
precipitation, our projections suggested that the water balance of Lake Kinneret
could experience a deficit of 14–40 % this century. We anticipate this substantial
projected deficit combined with a considerable growth in population expected for
this region could have considerable negative impacts on water availability and
would consequently increase regional water stress.'
article_number: '128729'
author:
- first_name: Sofia
full_name: La Fuente, Sofia
last_name: La Fuente
- first_name: Eleanor
full_name: Jennings, Eleanor
last_name: Jennings
- first_name: Gideon
full_name: Gal, Gideon
last_name: Gal
- first_name: Georgiy
full_name: Kirillin, Georgiy
last_name: Kirillin
- first_name: Tom
full_name: Shatwell, Tom
id: '86424'
last_name: Shatwell
orcid: 0000-0002-4520-7916
- first_name: Robert
full_name: Ladwig, Robert
last_name: Ladwig
- first_name: Tadhg
full_name: Moore, Tadhg
last_name: Moore
- first_name: Raoul-Marie
full_name: Couture, Raoul-Marie
last_name: Couture
- first_name: Marianne
full_name: Côté, Marianne
last_name: Côté
- first_name: C.
full_name: Love Råman Vinnå, C.
last_name: Love Råman Vinnå
- first_name: R.
full_name: Iestyn Woolway, R.
last_name: Iestyn Woolway
citation:
ama: La Fuente S, Jennings E, Gal G, et al. Multi-model projections of future evaporation
in a sub-tropical lake. Journal of Hydrology. 2022;615. doi:10.1016/j.jhydrol.2022.128729
apa: La Fuente, S., Jennings, E., Gal, G., Kirillin, G., Shatwell, T., Ladwig, R.,
Moore, T., Couture, R.-M., Côté, M., Love Råman Vinnå, C., & Iestyn Woolway,
R. (2022). Multi-model projections of future evaporation in a sub-tropical lake.
Journal of Hydrology, 615, Article 128729. https://doi.org/10.1016/j.jhydrol.2022.128729
bjps: La Fuente S et al. (2022) Multi-Model Projections of Future
Evaporation in a Sub-Tropical Lake. Journal of Hydrology 615.
chicago: La Fuente, Sofia, Eleanor Jennings, Gideon Gal, Georgiy Kirillin, Tom Shatwell,
Robert Ladwig, Tadhg Moore, et al. “Multi-Model Projections of Future Evaporation
in a Sub-Tropical Lake.” Journal of Hydrology 615 (2022). https://doi.org/10.1016/j.jhydrol.2022.128729.
chicago-de: La Fuente, Sofia, Eleanor Jennings, Gideon Gal, Georgiy Kirillin, Tom
Shatwell, Robert Ladwig, Tadhg Moore, u. a. 2022. Multi-model projections of future
evaporation in a sub-tropical lake. Journal of Hydrology 615. doi:10.1016/j.jhydrol.2022.128729,
.
din1505-2-1: 'La
Fuente, Sofia ; Jennings, Eleanor
; Gal, Gideon ; Kirillin,
Georgiy ; Shatwell, Tom ;
Ladwig, Robert ; Moore,
Tadhg ; Couture, Raoul-Marie
; u. a.: Multi-model projections of future evaporation in a sub-tropical
lake. In: Journal of Hydrology Bd. 615. Amsterdam, Elsevier BV (2022)'
havard: S. La Fuente, E. Jennings, G. Gal, G. Kirillin, T. Shatwell, R. Ladwig,
T. Moore, R.-M. Couture, M. Côté, C. Love Råman Vinnå, R. Iestyn Woolway, Multi-model
projections of future evaporation in a sub-tropical lake, Journal of Hydrology.
615 (2022).
ieee: 'S. La Fuente et al., “Multi-model projections of future evaporation
in a sub-tropical lake,” Journal of Hydrology, vol. 615, Art. no. 128729,
2022, doi: 10.1016/j.jhydrol.2022.128729.'
mla: La Fuente, Sofia, et al. “Multi-Model Projections of Future Evaporation in
a Sub-Tropical Lake.” Journal of Hydrology, vol. 615, 128729, 2022, https://doi.org/10.1016/j.jhydrol.2022.128729.
short: S. La Fuente, E. Jennings, G. Gal, G. Kirillin, T. Shatwell, R. Ladwig, T.
Moore, R.-M. Couture, M. Côté, C. Love Råman Vinnå, R. Iestyn Woolway, Journal
of Hydrology 615 (2022).
ufg: 'La Fuente, Sofia u. a.: Multi-model projections of future evaporation
in a sub-tropical lake, in: Journal of Hydrology 615 (2022).'
van: La Fuente S, Jennings E, Gal G, Kirillin G, Shatwell T, Ladwig R, et al. Multi-model
projections of future evaporation in a sub-tropical lake. Journal of Hydrology.
2022;615.
date_created: 2024-12-08T19:49:42Z
date_updated: 2024-12-11T13:18:16Z
department:
- _id: DEP8022
doi: 10.1016/j.jhydrol.2022.128729
extern: '1'
intvolume: ' 615'
keyword:
- Ensemble modelling
- Lake evaporation
- Climate change
- Lake Kinneret
language:
- iso: eng
place: Amsterdam
publication: Journal of Hydrology
publication_identifier:
eissn:
- 1879-2707
issn:
- 0022-1694
publication_status: published
publisher: Elsevier BV
quality_controlled: '1'
status: public
title: Multi-model projections of future evaporation in a sub-tropical lake
type: scientific_journal_article
user_id: '83781'
volume: 615
year: '2022'
...
---
_id: '12223'
abstract:
- lang: eng
text: Deforestation is currently a widespread phenomenon and a growing environmental
concern in the era of rapid climate change. In temperate regions, it is challenging
to quantify the impacts of deforestation on the catchment dynamics and downstream
aquatic ecosystems such as reservoirs and disentangle these from direct climate
change impacts, let alone project future changes to inform management. Here, we
tackled this issue by investigating a unique catchment-reservoir system with two
reservoirs in distinct trophic states (meso‑ and eutrophic), both of which drain
into the largest drinking water reservoir in Germany. Due to the prolonged droughts
in 2015–2018, the catchment of the mesotrophic reservoir lost an unprecedented
area of forest (exponential increase since 2015 and ca. 17.1% loss in 2020 alone).
We coupled catchment nutrient exports (HYPE) and reservoir ecosystem dynamics
(GOTM-WET) models using a process-based modeling approach. The coupled model was
validated with datasets spanning periods of rapid deforestation, which makes our
future projections highly robust. Results show that in a short-term time scale
(by 2035), increasing nutrient flux from the catchment due to vast deforestation
(80% loss) can turn the mesotrophic reservoir into a eutrophic state as its counterpart.
Our results emphasize the more prominent impacts of deforestation than the direct
impact of climate warming in impairment of water quality and ecological services
to downstream aquatic ecosystems. Therefore, we propose to evaluate the impact
of climate change on temperate reservoirs by incorporating a time scale-dependent
context, highlighting the indirect impact of deforestation in the short-term scale.
In the long-term scale (e.g. to 2100), a guiding hypothesis for future research
may be that indirect effects (e.g., as mediated by catchment dynamics) are as
important as the direct effects of climate warming on aquatic ecosystems.
article_number: '118721'
author:
- first_name: Xiangzhen
full_name: Kong, Xiangzhen
last_name: Kong
- first_name: Salman
full_name: Ghaffar, Salman
last_name: Ghaffar
- first_name: Maria
full_name: Determann, Maria
last_name: Determann
- first_name: Kurt
full_name: Friese, Kurt
last_name: Friese
- first_name: Seifeddine
full_name: Jomaa, Seifeddine
last_name: Jomaa
- first_name: Chenxi
full_name: Mi, Chenxi
last_name: Mi
- first_name: Tom
full_name: Shatwell, Tom
id: '86424'
last_name: Shatwell
orcid: 0000-0002-4520-7916
- first_name: Karsten
full_name: Rinke, Karsten
last_name: Rinke
- first_name: Michael
full_name: Rode, Michael
last_name: Rode
citation:
ama: 'Kong X, Ghaffar S, Determann M, et al. Reservoir water quality deterioration
due to deforestation emphasizes the indirect effects of global change. Water
research : a journal of the International Water Association. 2022;221(8).
doi:10.1016/j.watres.2022.118721'
apa: 'Kong, X., Ghaffar, S., Determann, M., Friese, K., Jomaa, S., Mi, C., Shatwell,
T., Rinke, K., & Rode, M. (2022). Reservoir water quality deterioration due
to deforestation emphasizes the indirect effects of global change. Water Research :
A Journal of the International Water Association, 221(8), Article 118721.
https://doi.org/10.1016/j.watres.2022.118721'
bjps: 'Kong X et al. (2022) Reservoir Water Quality Deterioration
Due to Deforestation Emphasizes the Indirect Effects of Global Change. Water
research : a journal of the International Water Association 221.'
chicago: 'Kong, Xiangzhen, Salman Ghaffar, Maria Determann, Kurt Friese, Seifeddine
Jomaa, Chenxi Mi, Tom Shatwell, Karsten Rinke, and Michael Rode. “Reservoir Water
Quality Deterioration Due to Deforestation Emphasizes the Indirect Effects of
Global Change.” Water Research : A Journal of the International Water Association
221, no. 8 (2022). https://doi.org/10.1016/j.watres.2022.118721.'
chicago-de: 'Kong, Xiangzhen, Salman Ghaffar, Maria Determann, Kurt Friese, Seifeddine
Jomaa, Chenxi Mi, Tom Shatwell, Karsten Rinke und Michael Rode. 2022. Reservoir
water quality deterioration due to deforestation emphasizes the indirect effects
of global change. Water research : a journal of the International Water Association
221, Nr. 8. doi:10.1016/j.watres.2022.118721,
.'
din1505-2-1: 'Kong,
Xiangzhen ; Ghaffar, Salman
; Determann, Maria ; Friese,
Kurt ; Jomaa, Seifeddine
; Mi, Chenxi ; Shatwell,
Tom ; Rinke, Karsten ; u. a.:
Reservoir water quality deterioration due to deforestation emphasizes the indirect
effects of global change. In: Water research : a journal of the International
Water Association Bd. 221. Amsterdam, Elsevier BV (2022), Nr. 8'
havard: 'X. Kong, S. Ghaffar, M. Determann, K. Friese, S. Jomaa, C. Mi, T. Shatwell,
K. Rinke, M. Rode, Reservoir water quality deterioration due to deforestation
emphasizes the indirect effects of global change, Water Research : A Journal of
the International Water Association. 221 (2022).'
ieee: 'X. Kong et al., “Reservoir water quality deterioration due to deforestation
emphasizes the indirect effects of global change,” Water research : a journal
of the International Water Association, vol. 221, no. 8, Art. no. 118721,
2022, doi: 10.1016/j.watres.2022.118721.'
mla: 'Kong, Xiangzhen, et al. “Reservoir Water Quality Deterioration Due to Deforestation
Emphasizes the Indirect Effects of Global Change.” Water Research : A Journal
of the International Water Association, vol. 221, no. 8, 118721, 2022, https://doi.org/10.1016/j.watres.2022.118721.'
short: 'X. Kong, S. Ghaffar, M. Determann, K. Friese, S. Jomaa, C. Mi, T. Shatwell,
K. Rinke, M. Rode, Water Research : A Journal of the International Water Association
221 (2022).'
ufg: 'Kong, Xiangzhen u. a.: Reservoir water quality deterioration due to
deforestation emphasizes the indirect effects of global change, in: Water research :
a journal of the International Water Association 221 (2022), H. 8.'
van: 'Kong X, Ghaffar S, Determann M, Friese K, Jomaa S, Mi C, et al. Reservoir
water quality deterioration due to deforestation emphasizes the indirect effects
of global change. Water research : a journal of the International Water Association.
2022;221(8).'
date_created: 2024-12-08T19:52:43Z
date_updated: 2024-12-11T13:11:19Z
department:
- _id: DEP8022
doi: 10.1016/j.watres.2022.118721
extern: '1'
intvolume: ' 221'
issue: '8'
keyword:
- Deforestation
- Climate change
- Temperate regions
- Reservoir
- Eutrophication
- Process-based modeling
language:
- iso: eng
place: Amsterdam
publication: 'Water research : a journal of the International Water Association'
publication_identifier:
eissn:
- 1879-2448
issn:
- 0043-1354
publication_status: published
publisher: Elsevier BV
quality_controlled: '1'
status: public
title: Reservoir water quality deterioration due to deforestation emphasizes the indirect
effects of global change
type: scientific_journal_article
user_id: '83781'
volume: 221
year: '2022'
...
---
_id: '7102'
abstract:
- lang: eng
text: "Graduation Project: Understanding Climate Change, https://climatechange.infografia-design.de/\r\nClimate
change is happening now. Because of our dependence on fossil fuels, climate change
will continue into the future, with relatively unpredictable impacts on humans
and the environment. There are several psychological barriers and other challenges
that prevent people from committing themselves to the cause of mitigating climate
change through behavioral change. The complexity of the issue, its abstract nature
and the uncertainties associated with predictions and scientific research make
it difficult for non-experts to grasp. Interdisciplinary collaborations can overcome
the insular focus of climate change science. A shared methodology that combines
best practices from other disciplines like psychology, marketing and visual communication,
may help to better results when trying to communicate complex messages to the
mainstream public. This research explores the above points and then develops a
series of recommendations for climate change communication based on the gained
knowledge.\r\nThe graduation project (a Website) is based on these recommendations
https://climatechange.infografia-design.de/"
author:
- first_name: Andrea
full_name: Brenes-Arguedas, Andrea
id: '72380'
last_name: Brenes-Arguedas
citation:
ama: 'Brenes-Arguedas A. Understanding Climate Change - Visual Communication
for Scientific Facts. Lemgo: Technische Hochschule Ostwestfalen Lippe; 2022.'
apa: 'Brenes-Arguedas, A. (2022). Understanding Climate Change - Visual Communication
for scientific facts. Lemgo: Technische Hochschule Ostwestfalen Lippe.'
bjps: 'Brenes-Arguedas A (2022) Understanding Climate Change - Visual
Communication for Scientific Facts. Lemgo: Technische Hochschule Ostwestfalen
Lippe.'
chicago: 'Brenes-Arguedas, Andrea. Understanding Climate Change - Visual Communication
for Scientific Facts. Lemgo: Technische Hochschule Ostwestfalen Lippe, 2022.'
chicago-de: 'Brenes-Arguedas, Andrea. 2022. Understanding Climate Change - Visual
Communication for scientific facts. Lemgo: Technische Hochschule Ostwestfalen
Lippe.'
din1505-2-1: 'Brenes-Arguedas, Andrea:
Understanding Climate Change - Visual Communication for scientific facts.
Lemgo : Technische Hochschule Ostwestfalen Lippe, 2022'
havard: A. Brenes-Arguedas, Understanding Climate Change - Visual Communication
for scientific facts, Technische Hochschule Ostwestfalen Lippe, Lemgo, 2022.
ieee: 'A. Brenes-Arguedas, Understanding Climate Change - Visual Communication
for scientific facts. Lemgo: Technische Hochschule Ostwestfalen Lippe, 2022.'
mla: Brenes-Arguedas, Andrea. Understanding Climate Change - Visual Communication
for Scientific Facts. Technische Hochschule Ostwestfalen Lippe, 2022.
short: A. Brenes-Arguedas, Understanding Climate Change - Visual Communication for
Scientific Facts, Technische Hochschule Ostwestfalen Lippe, Lemgo, 2022.
ufg: 'Brenes-Arguedas, Andrea (2022): Understanding Climate Change - Visual
Communication for scientific facts, Lemgo.'
van: 'Brenes-Arguedas A. Understanding Climate Change - Visual Communication for
scientific facts. Lemgo: Technische Hochschule Ostwestfalen Lippe; 2022. 53 p.'
date_created: 2022-03-08T10:11:42Z
date_updated: 2023-03-15T13:50:09Z
ddc:
- '760'
defense_date: 2022-03-03
department:
- _id: DEP2001
- _id: DEP1001
file:
- access_level: open_access
content_type: application/pdf
creator: 5gk-tnc
date_created: 2022-03-08T10:07:20Z
date_updated: 2022-03-08T10:07:20Z
file_id: '7103'
file_name: UnderstandingClimateChange.pdf
file_size: 3914376
relation: main_file
success: 1
file_date_updated: 2022-03-08T10:07:20Z
has_accepted_license: '1'
jel:
- M3
keyword:
- Visual communication
- climate change
- social marketing
- infographic
language:
- iso: eng
oa: '1'
page: '53'
place: Lemgo
publication_status: published
publisher: Technische Hochschule Ostwestfalen Lippe
status: public
supervisor:
- first_name: Peter
full_name: Kaboth, Peter
id: '11179'
last_name: Kaboth
title: Understanding Climate Change - Visual Communication for scientific facts
type: master_thesis
user_id: '15514'
year: 2022
...
---
_id: '7121'
abstract:
- lang: eng
text: "Graduation Projekt Website: https://climatechange.infografia-design.de/\r\nClimate
change is happening now. Because of our dependence on fos-sil fuels, climate change
will continue into the future with relatively unpredictable impacts on humans
and the environment. There are several psychological barriers and other challenges
that prevent peo-ple from committing themselves to the cause of mitigating climate
change through behavioral change. The complexity of the issue, its abstract nature
and the uncertainties associated with predictions and scientific research make
it difficult for non-experts to grasp. Interdis-ciplinary collaborations can overcome
the insular focus of climate change science. A shared methodology that combines
best practic-es from other disciplines like psychology, marketing and visual com-munication,
may help to better results when trying to communicate complex messages to the
mainstream public. This research explores the above points and then develops a
series of recommendations for climate change communication based on the gained
knowledge.\r\nThe graduation project (a Website) is based on these recommenda-tions
https://climatechange.infografia-design.de/"
author:
- first_name: Andrea
full_name: Brenes-Arguedas, Andrea
id: '72380'
last_name: Brenes-Arguedas
citation:
ama: 'Brenes-Arguedas A. Understanding Climate Change- Visual Communication for
Scientific Facts. Lemgo: Technische Hochschule Ostwestfalen-Lippe; 2022.'
apa: 'Brenes-Arguedas, A. (2022). Understanding Climate Change- Visual communication
for scientific facts. Lemgo: Technische Hochschule Ostwestfalen-Lippe.'
bjps: 'Brenes-Arguedas A (2022) Understanding Climate Change- Visual Communication
for Scientific Facts. Lemgo: Technische Hochschule Ostwestfalen-Lippe.'
chicago: 'Brenes-Arguedas, Andrea. Understanding Climate Change- Visual Communication
for Scientific Facts. 53. Lemgo: Technische Hochschule Ostwestfalen-Lippe,
2022.'
chicago-de: 'Brenes-Arguedas, Andrea. 2022. Understanding Climate Change- Visual
communication for scientific facts. 53. Lemgo: Technische Hochschule Ostwestfalen-Lippe.'
din1505-2-1: 'Brenes-Arguedas, Andrea:
Understanding Climate Change- Visual communication for scientific facts,
53. Lemgo : Technische Hochschule Ostwestfalen-Lippe, 2022'
havard: A. Brenes-Arguedas, Understanding Climate Change- Visual communication for
scientific facts, Technische Hochschule Ostwestfalen-Lippe, Lemgo, 2022.
ieee: 'A. Brenes-Arguedas, Understanding Climate Change- Visual communication
for scientific facts. Lemgo: Technische Hochschule Ostwestfalen-Lippe, 2022.'
mla: Brenes-Arguedas, Andrea. Understanding Climate Change- Visual Communication
for Scientific Facts. Technische Hochschule Ostwestfalen-Lippe, 2022.
short: A. Brenes-Arguedas, Understanding Climate Change- Visual Communication for
Scientific Facts, Technische Hochschule Ostwestfalen-Lippe, Lemgo, 2022.
ufg: 'Brenes-Arguedas, Andrea (2022): Understanding Climate Change- Visual
communication for scientific facts (=53), Lemgo.'
van: 'Brenes-Arguedas A. Understanding Climate Change- Visual communication for
scientific facts. Lemgo: Technische Hochschule Ostwestfalen-Lippe; 2022. (53).'
date_created: 2022-03-11T09:01:15Z
date_updated: 2023-03-15T13:50:09Z
ddc:
- '760'
defense_date: 2022-03-03
department:
- _id: DEP2001
file:
- access_level: open_access
content_type: application/pdf
creator: 6bl-f5s
date_created: 2022-03-11T09:00:03Z
date_updated: 2022-03-11T09:00:03Z
file_id: '7122'
file_name: UnderstandingClimateChange.pdf
file_size: 4253741
relation: main_file
success: 1
file_date_updated: 2022-03-11T09:00:03Z
has_accepted_license: '1'
keyword:
- Visual communication
- climate change
- social marketing
- infographics
language:
- iso: eng
oa: '1'
place: Lemgo
publication_status: published
publisher: Technische Hochschule Ostwestfalen-Lippe
related_material:
link:
- relation: other
url: https://climatechange.infografia-design.de/
series_title: '53'
status: public
supervisor:
- first_name: Peter
full_name: Kaboth, Peter
id: '11179'
last_name: Kaboth
- first_name: Tobias
full_name: Schmohl, Tobias
id: '71782'
last_name: Schmohl
orcid: https://orcid.org/0000-0002-7043-5582
title: Understanding Climate Change- Visual communication for scientific facts
type: master_thesis
user_id: '45673'
year: 2022
...
---
_id: '12233'
abstract:
- lang: eng
text: The thermal structure in reservoirs affects the development of aquatic ecosystems,
and can be substantially influenced by climate change and management strategies.
We applied a two-dimensional hydrodynamic model to explore the response of the
thermal structure in Germany's largest drinking water reservoir, Rappbode Reservoir,
to future climate projections and different water withdrawal strategies. We used
projections for representative concentration pathways (RCP) 2.6, 6.0 and 8.5 from
an ensemble of 4 different global climate models. Simulation results showed that
epilimnetic water temperatures in the reservoir strongly increased under all three
climate scenarios. Hypolimnetic temperatures remained rather constant under RCP
2.6 and RCP 6.0 but increased markedly under RCP 8.5. Under the intense warming
in RCP 8.5, hypolimnion temperatures were projected to rise from 5 °C to 8 °C
by the end of the century. Stratification in the reservoir was projected to be
more stable under RCP 6.0 and RCP 8.5, but did not show significant changes under
RCP 2.6. Similar results were found with respect to the light intensity within
the mixed-layer. Moreover, the results suggested that surface withdrawal can be
an effective adaptation strategy under strong climate warming (RCP 8.5) to reduce
surface warming and avoid hypolimnetic warming. This study documents how global
scale climate projections can be translated into site-specific climate impacts
to derive adaptation strategies for reservoir operation. Moreover, our results
illustrate that the most intense warming scenario, i.e. RCP 8.5, demands far-reaching
climate adaptation while the mitigation scenario (RCP 2.6) does not require adaptation
of reservoir management before 2100.
article_number: '141366'
author:
- first_name: Chenxi
full_name: Mi, Chenxi
last_name: Mi
- first_name: Tom
full_name: Shatwell, Tom
id: '86424'
last_name: Shatwell
orcid: 0000-0002-4520-7916
- first_name: Jun
full_name: Ma, Jun
last_name: Ma
- first_name: Yaqian
full_name: Xu, Yaqian
last_name: Xu
- first_name: Fangli
full_name: Su, Fangli
last_name: Su
- first_name: Karsten
full_name: Rinke, Karsten
last_name: Rinke
citation:
ama: 'Mi C, Shatwell T, Ma J, Xu Y, Su F, Rinke K. Ensemble warming projections
in Germany’s largest drinking water reservoir and potential adaptation strategies.
The science of the total environment : an international journal for scientific
research into the environment and its relationship with man. 2020;748(12).
doi:10.1016/j.scitotenv.2020.141366'
apa: 'Mi, C., Shatwell, T., Ma, J., Xu, Y., Su, F., & Rinke, K. (2020). Ensemble
warming projections in Germany’s largest drinking water reservoir and potential
adaptation strategies. The Science of the Total Environment : An International
Journal for Scientific Research into the Environment and Its Relationship with
Man, 748(12), Article 141366. https://doi.org/10.1016/j.scitotenv.2020.141366'
bjps: 'Mi C et al. (2020) Ensemble Warming Projections in Germany’s
Largest Drinking Water Reservoir and Potential Adaptation Strategies. The science
of the total environment : an international journal for scientific research into
the environment and its relationship with man 748.'
chicago: 'Mi, Chenxi, Tom Shatwell, Jun Ma, Yaqian Xu, Fangli Su, and Karsten Rinke.
“Ensemble Warming Projections in Germany’s Largest Drinking Water Reservoir and
Potential Adaptation Strategies.” The Science of the Total Environment : An
International Journal for Scientific Research into the Environment and Its Relationship
with Man 748, no. 12 (2020). https://doi.org/10.1016/j.scitotenv.2020.141366.'
chicago-de: 'Mi, Chenxi, Tom Shatwell, Jun Ma, Yaqian Xu, Fangli Su und Karsten
Rinke. 2020. Ensemble warming projections in Germany’s largest drinking water
reservoir and potential adaptation strategies. The science of the total environment :
an international journal for scientific research into the environment and its
relationship with man 748, Nr. 12. doi:10.1016/j.scitotenv.2020.141366,
.'
din1505-2-1: 'Mi, Chenxi ; Shatwell,
Tom ; Ma, Jun ; Xu,
Yaqian ; Su, Fangli ; Rinke, Karsten: Ensemble warming projections
in Germany’s largest drinking water reservoir and potential adaptation strategies.
In: The science of the total environment : an international journal for scientific
research into the environment and its relationship with man Bd. 748. Amsterdam,
Elsevier BV (2020), Nr. 12'
havard: 'C. Mi, T. Shatwell, J. Ma, Y. Xu, F. Su, K. Rinke, Ensemble warming projections
in Germany’s largest drinking water reservoir and potential adaptation strategies,
The Science of the Total Environment : An International Journal for Scientific
Research into the Environment and Its Relationship with Man. 748 (2020).'
ieee: 'C. Mi, T. Shatwell, J. Ma, Y. Xu, F. Su, and K. Rinke, “Ensemble warming
projections in Germany’s largest drinking water reservoir and potential adaptation
strategies,” The science of the total environment : an international journal
for scientific research into the environment and its relationship with man,
vol. 748, no. 12, Art. no. 141366, 2020, doi: 10.1016/j.scitotenv.2020.141366.'
mla: 'Mi, Chenxi, et al. “Ensemble Warming Projections in Germany’s Largest Drinking
Water Reservoir and Potential Adaptation Strategies.” The Science of the Total
Environment : An International Journal for Scientific Research into the Environment
and Its Relationship with Man, vol. 748, no. 12, 141366, 2020, https://doi.org/10.1016/j.scitotenv.2020.141366.'
short: 'C. Mi, T. Shatwell, J. Ma, Y. Xu, F. Su, K. Rinke, The Science of the Total
Environment : An International Journal for Scientific Research into the Environment
and Its Relationship with Man 748 (2020).'
ufg: 'Mi, Chenxi u. a.: Ensemble warming projections in Germany’s largest
drinking water reservoir and potential adaptation strategies, in: The science
of the total environment : an international journal for scientific research into
the environment and its relationship with man 748 (2020), H. 12.'
van: 'Mi C, Shatwell T, Ma J, Xu Y, Su F, Rinke K. Ensemble warming projections
in Germany’s largest drinking water reservoir and potential adaptation strategies.
The science of the total environment : an international journal for scientific
research into the environment and its relationship with man. 2020;748(12).'
date_created: 2024-12-08T20:23:26Z
date_updated: 2024-12-09T11:18:40Z
department:
- _id: DEP8022
doi: 10.1016/j.scitotenv.2020.141366
extern: '1'
intvolume: ' 748'
issue: '12'
keyword:
- Rappbode Reservoir
- Thermal structure
- Climate change
- CE-QUAL-W2
- Selective water withdrawal
language:
- iso: eng
main_file_link:
- url: https://doi.org/10.1016/j.scitotenv.2020.141366
place: Amsterdam
publication: 'The science of the total environment : an international journal for
scientific research into the environment and its relationship with man'
publication_identifier:
eissn:
- 1879-1026
issn:
- 0048-9697
publication_status: published
publisher: Elsevier BV
quality_controlled: '1'
status: public
title: Ensemble warming projections in Germany's largest drinking water reservoir
and potential adaptation strategies
type: scientific_journal_article
user_id: '83781'
volume: 748
year: '2020'
...
---
_id: '10068'
abstract:
- lang: eng
text: Currently, cities are confronting a multitude of challenges including climate
change, demographic change, urbanization and land subsidence. Resulting flooding,
droughts and other disturbances could lead to water shortages, severe interruptions,
hydraulic problems or underutilization of water infrastructure systems. One way
that cities can become more resilient is by diversifying their water resources
and reducing their dependency on central water infrastructures. Water infrastructure
systems consisting of decentral or semi-central partial systems would be more
resilient because a failure in these systems would only affect a small part of
the urban area. Instead of an incremental improvement of the water infrastructure,
there is a need for system innovations that will allow an adaptive development
to changing conditions and which will ensure that future sustainability challenges
are met. However, moving towards more resilient water technologies is seen as
controversial for built-up areas. To answer the question if a transformation to
a more resilient water infrastructure in built-up areas is feasible (technically
and economically), a balancing and assessment of the corresponding effects have
been done by way of comparing a “transformation” scenario with a reference scenario
“business as usual”. If one takes a long-term period of observation (70 years),
the costs balance of the scenarios “reference” and “transformation” both turn
out to be on a comparative level. By contrast, the consumption of environmental
resources in the scenario “transformation” is almost twice as low as in the “reference”.
author:
- first_name: Engelbert
full_name: Schramm, Engelbert
last_name: Schramm
- first_name: Jörg
full_name: Felmeden, Jörg
id: '81335'
last_name: Felmeden
citation:
ama: 'Schramm E, Felmeden J. Towards More Resilient Water Infrastructures. In: Zimmermann
KO, ed. Resilient Cities 2 : Cities and Adaptation to Climate Change – Proceedings
of the Global Forum 2011 . Vol 2. Local sustainability. Springer Dordrecht;
2012:177-186. doi:https://doi.org/10.1007/978-94-007-4223-9_19'
apa: 'Schramm, E., & Felmeden, J. (2012). Towards More Resilient Water Infrastructures.
In K. O. Zimmermann (Ed.), Resilient Cities 2 : Cities and Adaptation to Climate
Change – Proceedings of the Global Forum 2011 (Vol. 2, pp. 177–186). Springer
Dordrecht. https://doi.org/10.1007/978-94-007-4223-9_19'
bjps: 'Schramm E and Felmeden J (2012) Towards More Resilient Water Infrastructures.
In Zimmermann KO (ed.), Resilient Cities 2 : Cities and Adaptation to Climate
Change – Proceedings of the Global Forum 2011 , vol. 2. Dordrecht: Springer
Dordrecht, pp. 177–186.'
chicago: 'Schramm, Engelbert, and Jörg Felmeden. “Towards More Resilient Water Infrastructures.”
In Resilient Cities 2 : Cities and Adaptation to Climate Change – Proceedings
of the Global Forum 2011 , edited by Karl Otto Zimmermann, 2:177–86. Local
Sustainability. Dordrecht: Springer Dordrecht, 2012. https://doi.org/10.1007/978-94-007-4223-9_19.'
chicago-de: 'Schramm, Engelbert und Jörg Felmeden. 2012. Towards More Resilient
Water Infrastructures. In: Resilient Cities 2 : Cities and Adaptation to Climate
Change – Proceedings of the Global Forum 2011 , hg. von Karl Otto Zimmermann,
2:177–186. Local sustainability. Dordrecht: Springer Dordrecht. doi:https://doi.org/10.1007/978-94-007-4223-9_19,
.'
din1505-2-1: 'Schramm, Engelbert ;
Felmeden, Jörg: Towards More Resilient
Water Infrastructures. In: Zimmermann,
K. O. (Hrsg.): Resilient Cities 2 : Cities and Adaptation to Climate
Change – Proceedings of the Global Forum 2011 , Local sustainability.
Bd. 2. Dordrecht : Springer Dordrecht, 2012, S. 177–186'
havard: 'E. Schramm, J. Felmeden, Towards More Resilient Water Infrastructures,
in: K.O. Zimmermann (Ed.), Resilient Cities 2 : Cities and Adaptation to Climate
Change – Proceedings of the Global Forum 2011 , Springer Dordrecht, Dordrecht,
2012: pp. 177–186.'
ieee: 'E. Schramm and J. Felmeden, “Towards More Resilient Water Infrastructures,”
in Resilient Cities 2 : Cities and Adaptation to Climate Change – Proceedings
of the Global Forum 2011 , vol. 2, K. O. Zimmermann, Ed. Dordrecht: Springer
Dordrecht, 2012, pp. 177–186. doi: https://doi.org/10.1007/978-94-007-4223-9_19.'
mla: 'Schramm, Engelbert, and Jörg Felmeden. “Towards More Resilient Water Infrastructures.”
Resilient Cities 2 : Cities and Adaptation to Climate Change – Proceedings
of the Global Forum 2011 , edited by Karl Otto Zimmermann, vol. 2, Springer
Dordrecht, 2012, pp. 177–86, https://doi.org/10.1007/978-94-007-4223-9_19.'
short: 'E. Schramm, J. Felmeden, in: K.O. Zimmermann (Ed.), Resilient Cities 2 :
Cities and Adaptation to Climate Change – Proceedings of the Global Forum 2011
, Springer Dordrecht, Dordrecht, 2012, pp. 177–186.'
ufg: 'Schramm, Engelbert/Felmeden, Jörg: Towards More Resilient Water Infrastructures,
in: Zimmermann, Karl Otto (Hg.): Resilient Cities 2 : Cities and Adaptation
to Climate Change – Proceedings of the Global Forum 2011 , Bd. 2, Dordrecht 2012
(Local sustainability), S. 177–186.'
van: 'Schramm E, Felmeden J. Towards More Resilient Water Infrastructures. In: Zimmermann
KO, editor. Resilient Cities 2 : Cities and Adaptation to Climate Change – Proceedings
of the Global Forum 2011 . Dordrecht: Springer Dordrecht; 2012. p. 177–86. (Local
sustainability; vol. 2).'
conference:
end_date: 2011-06-05
location: Bonn
name: 'Proceedings of the Global Forum 2011 '
start_date: 2011-06-03
date_created: 2023-06-30T06:30:30Z
date_updated: 2023-07-05T14:53:26Z
department:
- _id: DEP3021
doi: https://doi.org/10.1007/978-94-007-4223-9_19
editor:
- first_name: Karl Otto
full_name: Zimmermann, Karl Otto
last_name: Zimmermann
extern: '1'
intvolume: ' 2'
keyword:
- Climate change
- Eco-efficiency analysis
- System innovations
- Vulnerability
- Water infrastructure
language:
- iso: eng
page: 177–186
place: Dordrecht
publication: 'Resilient Cities 2 : Cities and Adaptation to Climate Change – Proceedings
of the Global Forum 2011 '
publication_identifier:
eisbn:
- '978-94-007-4223-9 '
eissn:
- '2211-2790 '
isbn:
- 978-94-007-9776-5
- 978-94-007-4222-2
issn:
- '2211-2782 '
publication_status: published
publisher: Springer Dordrecht
related_material:
link:
- relation: confirmation
url: https://www.springer.com/us/book/9789400742222
series_title: Local sustainability
status: public
title: Towards More Resilient Water Infrastructures
type: book_chapter
user_id: '83781'
volume: 2
year: '2012'
...