WAVE Case Study Neckarinsel Stuttgart: Difference between revisions

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File:Institutionelle stakeholder.jpg|Institutional stakeholders and the space they take.
File:Institutionelle stakeholder.jpg|Institutional stakeholders and the space they take.
File:Swot.png|Analysis of Strength, Weaknesses, Opportunities and Threats.
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Revision as of 21:59, 3 May 2022

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Area Neckar Bad Cannstatt
Place Stuttgart
Country Baden-Württemberg, Germany
Topics Re-Connecting to the Neckar
Author(s) Anna-Kathrin Schneider

Rationale

The Neckar is included and fit into human usages in the area, where its passing though Stuttgart and it divides Stuttgart Bad Cannstatt from the inner city. Through that the study area is a point of connectivity and mobility in each manner. In history the people in charge of of the urban water site switched and now multiple stakeholders are somehow connected to that. For the inhabitants the study area is just a point of crossing and moving, while totally disconnected to river. Moreover, in the future there will be a shift of usages of railways, new ones are under construction right now, additionally the contracts for electric power generation with the big companies will end 2034. These shifts could be used to re-shape and re-connected the people to the river.

Location and scope

You can edit this map with the map editor

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Water as a natural system

Geomorphology, typologies and dynamics of water areas

The Neckar flows from its origin near Schwenningen to Mannheim, where it leads into the Rhein. Er überbrückt damit eine Distanz von 371 km und eine Höhendifferenz von 621 m.

The development of the catchment area started already in the Cretaceous period with the cave in of the Oberrheingraben and the beginning rise of the Swabian Alb. Consequently, the catchment areas of Danube and the earlier river Rhein changed. The Neckar receives its water now from 13.600 sqkm catchment area. Important is the perception minus evaporation in that area. The water level therefore depends highly on weather, so seasonal and shortly changes are visible. The average yearly perception in the catchment area are between 600mm to 800mm.

Catchment area of the Neckar river.
Map roughly shows the land use along the Neckar in the study area.


Water as a living space

In Stuttgart's urban environment and due to the expansion of the federal waterway, the Neckar has been increasingly forced into a built corset in recent centuries. Nature conservation and environmental protection, as well as biodiversity, hardly played a role. North of Stuttgart, between Aldingen and Stuttgart-Mühlhausen, lies the nature reserve "Oeffinger Scillawald". It is named after the large occurrence of blue star and consists of a deciduous forest that used to be frequently found along the Neckar.  This is the only nature reserve along the Neckar near Stuttgart. Up to Plochingen, the end point of the waterway, the river and the riverbank are industrially used and deformed.

In addition to the Neckar, there are 16 other streams in the Stuttgart area. Their total flow length is approx. 150 kilometres, the longest stream being the Feuerbach with a length of 11.5 km. There are also other standing waters in the Stuttgart area. The largest lake is the Max-Eyth-See with an area of 17.3 hectares. (State Capital Stuttgart Civil Engineering Office (2020): Portrait of Stuttgart's water bodies)

The water quality of the Neckar suffered and still suffers from the various industrial uses and structural changes. The 27 barrages slow down the flow, which can lead to a lack of oxygen as there is no longer any turbulence. The critical mark is below 4mg oxygen/litre (LUBW; https://www.lubw.baden-wuerttemberg.de/wasser/chemischer_zustand).

Likewise, sewage treatment plants discharge their treated wastewater into the Neckar, but polluted water is still fed into the river. Swimming in the Neckar is therefore not recommended.

Furthermore, rising temperatures affect the water temperature and thus the ecological condition of the water body. The critical mark of 28° degrees should not be exceeded. However, the water of the Neckar is used as cooling water by the industries on its banks. If the water temperature rises, the power plants must reduce their output in order to protect the "Neckar" habitat. (Regierungspräsidium Stuttgart (27.08.2018): Hohe Temperaturen im Neckar: Regierungspräsidium erteilt Ausnahmeerlaubnisse für drei Kraftwerke der EnBW, Pressemitteilung). The following graphs show how precipitation in the Stuttgart area affects the water temperature and oxygen content of the Neckar with a slight delay. The increased inflow of rainwater lowers the temperature and the increased flow velocity allows more oxygen to enter. The fourth graph shows the rising water temperatures over the course of the year.

Within the framework of the Baden-Württemberg Surface Water Ordinance, the Neckar in the urban area of Stuttgart is assigned to the fish community of the epipotamal. This fish community includes, for example, eel, bitterling, flounder, pike, rudd, tench and zander. The species-specific preferred temperatures for this fish community are up to 25° degrees in summer and up to 10° degrees in winter. (LAZBW(2020): Assignment of fish communities and resulting temperature requirements according to the Surface Water Ordinance in Baden-Württemberg)

Blue and Green Infrastructure

The Neckar river has a major function in the climatic situation of the urban area. Following maps from the City Surveyor's Office and Geoinformation show the climatic situation around the area and the impact of the river.

Vulnerability of residents to climate change

The build up area along the river is highly burdened with urban structures and resulting climatic conditions. The local residents are highly vulnerable towards climatic changes. And even the Rosensteinpark has a high exposure to heat in summer. Especially the old town of Bad Cannstatt and the residents there will have to deal with urban heat islands and therfore heat stress due to climate change.

The intense traffic and important mobility hub (bridges between Bad Cannstatt and inner city) lead to high noise pollution and the formation of nitrogen dioxide. The Neckar Island is also affected by this.



Do get an overview of the surrounding area and its function, the following maps show the categorized landuse as well as the sealed structures, like buildings, streets and railways. Also a few other water structures can be found in the neighbouring Rosensteinparc.

Also the little green infrastructre around the study area has a minimal function as a carbon store. Two calculations were made with the help of the itree canopy calculator. The first shows the mobility node (study area). The second one is for comparison and was created in the Rosenstein Park.

At the study site there is over the half coverd by impervious roads and buildings (64%) and just 8% are covered by trees/ shrubs or Grass. The Rosensteinparc shows completly the opposite situation with a tree and grass coverage of ~95%. Looking at the reference area in the parc we can find ~214 tonnes of carbon stored in trees, which equals ~785 tonnes of CO2. Annually there is ~31 tonnes of CO2 sequestered in trees. Taking the CO2 price of the german government 25€ per ton, the parc is having a financial effect of 775€ CO2 per year.

The study site on the other hand has stored just ~42 tonnes carbon, which equals ~154 tonnes CO2 and is sequestering annully aprox. ~6 tonnes of CO2. Turning that into financial terms the study site has just an effect of 150€ a year. Very important is to understand here, that the CO2 which is produced by the cars everyday is not included in the calculation. Otherwise the financial effect would turn even worse into a negative value.

Water as a cultural space

Land use and water

The small video shows the spatial changes as well as the change of usage in the study area.

The Neckar has always represented an important landscape marker and use. For example, the middle course (between Rottenburg and Bad Wimpfen) was the north-eastern border of the Roman Empire for seventy years. (LUBW 2007; p. 46f.) The Romans also navigated the Neckar with rafts. The first successful development of the river was achieved by the Duke of Württemberg in 1821. In 1878, chain-towed navigation opened between Mannheim and Heilbronn. The expansion of locks and weirs took until 1935. Then the shipping route from Mannheim to Heilbronn (113km) could be opened. The Second World War not only slowed down further expansion, but also destroyed many bridges. Motorboats then made it possible for a few people to cross. However, the expansion was resumed after the World War, so that the port of Plochingen could be opened at the end of the 20th century, making 201km of the Neckar navigable. The total of 27 barrages also function as hydroelectric power stations for generating electricity and almost all of them were designed by the architect Paul Bonatz. (leo-bw)

The Neckar is approved for large Rhine ships up to 110m in length and up to 3000 (t) in tonnage. (Classification of the federal waterway: Class V a).

The extract from the Digital Federal Waterways Map gives an overview of the shippable Neckar and the location of the barrages.

Masterplan "Neckar experience area" and the IBA projects

While, in the last century, the Neckar was increasingly adapted to the urban context and industrially deformed, a rethinking has taken place in recent years. Although it is not possible to simply create a meandering riverbed due to the still active industry and the dense settlement of the riparian areas, people have set out to return the first parts to nature to some extent or to enable contact between people and water. In 2015, the city of Stuttgart started a master plan "Erlebnisraum Neckar. A master plan for Stuttgart as a city on the river". In several project phases, ideas and visions of the Neckar in the Stuttgart area are to be implemented by 2035. The concept is based on five fields of action: Networking River,

  1. Urban and Landscape Space
  2. Meeting Points on the River
  3. City Edges on the Water
  4. Experience Industrial Culture in the Neckar Valley
  5. Ecosystem Neckar

More information on individual building blocks and graphics: https://www.stuttgart-meine-stadt.de/content/bbv/details/302?tab=0

In addition, the International Building Exhibition 2027 has dedicated a plenary session to the topic of the Neckar and the city on the river. Within the framework of workshops, discussions and artistic interventions, numerous ideas for a city on the river were developed and images of the future created. The focus is above all on reclaiming the Neckar as a living space. Ideas that have arisen that also affect this study area are, for example:

The Rosenteinline - the conversion of the (soon to be) old railway line into a bicycle lane. Or the bathing ship at the Neckar Island, which would not only make it possible to experience the river, but also in the river.


More about the plenum and the individual ideas: https://www.iba27.de/themenraum-neckar/

Visual appearance and landscape narrative

The river also played a role in poetry.

Friedrich Hölderlin a well-known German writer and poet lived from 1770-1843 and wrote a famous poem about the Neckar.

Der Neckar

(written around 1800-1806)

In deinen Tälern wachte mein Herz mir auf

  Zum Leben, deine Wellen umspielten mich,

     Und all der holden Hügel, die dich

        Wanderer! kennen, ist keiner fremd mir.


Auf ihren Gipfeln löste des Himmels Luft

  Mir oft der Knechtschaft Schmerzen; und aus dem Tal,

     Wie Leben aus dem Freudebecher,

        Glänzte die bläuliche Silberwelle.


Der Berge Quellen eilten hinab zu dir,

  Mit ihnen auch mein Herz und du nahmst uns mit,

     Zum stillerhabnen Rhein, zu seinen

        Städten hinunter und lustgen Inseln.


Noch dünkt die Welt mir schön, und das Aug entflieht

  Verlangend nach den Reizen der Erde mir,

     Zum goldenen Paktol, zu Smyrnas

        Ufer, zu Ilions Wald. Auch möcht ich


Bei Sunium oft landen, den stummen Pfad

  Nach deinen Säulen fragen, Olympion!

     Noch eh der Sturmwind und das Alter

        Hin in den Schutt der Athenertempel


Und ihrer Gottesbilder auch dich begräbt,

  Denn lang schon einsam stehst du, o Stolz der Welt,

     Die nicht mehr ist. Und o ihr schönen

        Inseln Ioniens! wo die Meerluft


Die heißen Ufer kühlt und den Lorbeerwald

  Durchsäuselt, wenn die Sonne den Weinstock wärmt,

     Ach! wo ein goldner Herbst dem armen

        Volk in Gesänge die Seufzer wandelt,


Wenn sein Granatbaum reift, wenn aus grüner Nacht

  Die Pomeranze blinkt, und der Mastixbaum

     Von Harze träuft und Pauk und Cymbel

        Zum labyrinthischen Tanze klingen.


Zu euch, ihr Inseln! bringt mich vielleicht, zu euch

  Mein Schutzgott einst; doch weicht mir aus treuem Sinn

     Auch da mein Neckar nicht mit seinen

        Lieblichen Wiesen und Uferweiden.

(Source: https://www.textlog.de/17837.html#google_vignette)

Water and People

Accessibility and usability

Community Mapping

  • For each group, you may identify their needs, objectives, power and capacities
  • Please try to redepict these elements in an integrated way and in relation to your water landscape. What is the relationship between these groups? Are they close or distanced from each other? Who is more powerful? Which voices are hardly heard? Do they have any shared concerns?

Possible Futures

  • You can summarize your findings with a SWOT diagram and a DPSI(R) Model
  • Link back to the Sustainable Development Goals: Which goals are at risk?
  • What is your worst case scenario for this landscape?
  • What is your best case scenario for this landscape?
  • Present your scenarios in the form of a collage or sketch
  • Add text and visuals

Collaborative Goal Setting

  • Define strategic planning objectives based on the evaluation findings from your analysis
  • Ideally, involve the community of your living labs into this process
  • Link back to your original targets from section one and the Development Goals
  • 150 words text contribution

Spatial Strategy and Transect

  • translate your strategic goals into a vision
  • develop a spatial translation of your vision
  • exemplify your vision in the form of a transect with concrete interventions
  • add map(s) and visualizations

From Theory of Change to Implementation

  • For implementing your vision: Which partnerships are needed? Which governance model is required?
  • Who needs to act and how? Draw and explain a change/process model/timeline
  • Which resources are needed? On which assets can you build?
  • add 150 words text and visuals

References

Process Reflection

  • Reflect in your intercultural and interdisciplinary team on the outcomes of your study
  • Which limitations were you facing?
  • What have you learnt from each other?
  • What did you learn in the Living Labs?
  • What would you do differently next time?
  • You can also use diagrams/visuals
  • 250 words text