Identifying the relation between the traits of intertidal-organism and the ecosystem services they provide: carbon storage, coastal protection and biodiversity (outside HZ)

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Intertidal landscapes are a harsh environment for both plants and animals. These organisms have to withstand tidal flow, wind waves, anoxic soil conditions, flooding/drought-cycles, and many more stresses. Despite these harsh environmental conditions, a wide range of organisms (plants, algae and benthic animals) inhabits the tidal landscapes, each with their own specific adaptations that enable them to survive. Some of the organisms are even able to modify their physical environment via their structures or activities, which is often referred to as ecosystem engineering. Although the importance of ecosystem engineering for providing ecosystem services is well recognized, the underlying mechanisms explaining how it works are still poorly understood, as it requires an interdisciplinary approach.
   
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We aim to understand which organism traits are most important for i) the ecosystem resilience and long-term survival, ii) their ecosystem engineering effect on the intertidal landscape development and iii) ultimately the ecosystem services they provide (carbon storage, coastal protection and biodiversity).
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To answer this question, we combine field and laboratory studies, using state of the art techniques including (wave) flumes, instruments to manipulate and measure mechanical properties of the organisms, various chemical analyses, and many other techniques
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Within this research theme we offer several topics, each with the opportunity to tune it towards your specific interest. The possible topics will however strongly depend on the timing of the research. Within this research area, there will be several opportunities to collaborate with the Research Group Building with Nature Building of the HZ Univ. Applied Sciences.{{Project config}}
 
{{Project
 
{{Project
 
|Supercontext=Building with Nature
 
|Supercontext=Building with Nature
 
|Project type=Standaard
 
|Project type=Standaard
|Name=IDENTIFYING THE RELATION BETWEEN THE TRAITS OF INTERTIDAL-ORGANISM AND THE ECOSYSTEM SERVICES THEY PROVIDE: CARBON STORAGE, COASTAL PROTECTION AND BIODIVERSITY (outside HZ)
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|Name=Identifying the relation between the traits of intertidal-organism and the ecosystem services they provide: carbon storage, coastal protection and biodiversity (outside HZ)
 
|Start date=2016/08/01
 
|Start date=2016/08/01
 
|End date=2017/02/01
 
|End date=2017/02/01
|Summary=Intertidal landscapes are a harsh environment for both plants and animals. These organisms have to withstand tidal flow, wind waves, anoxic soil conditions, flooding/drought-cycles, and many more stresses. Despite these harsh environmental conditions, a wide range of organisms (plants, algae and benthic animals) inhabits the tidal landscapes, each with their own specific adaptations that enable them to survive. Some of the organisms are even able to modify their physical environment via their structures or activities, which is often referred to as ecosystem engineering. Although the importance of ecosystem engineering for providing ecosystem services is well recognized, the underlying mechanisms explaining how it works are still poorly understood, as it requires an interdisciplinary approach.
+
|Summary=Identifying the relation between the traits of intertidal-organism and the ecosystem services they provide: carbon storage, coastal protection and biodiversity
We aim to understand which organism traits are most important for i) the ecosystem resilience and long-term survival, ii) their ecosystem engineering effect on the intertidal landscape development and iii) ultimately the ecosystem services they provide (carbon storage, coastal protection and biodiversity).
 
To answer this question, we combine field and laboratory studies, using state of the art techniques including (wave) flumes, instruments to manipulate and measure mechanical properties of the organisms, various chemical analyses, and many other techniques
 
Within this research theme we offer several topics, each with the opportunity to tune it towards your specific interest. The possible topics will however strongly depend on the timing of the research. Within this research area, there will be several opportunities to collaborate with the Research Group Building with Nature Building of the HZ Univ. Applied Sciences.
 
Contact person: Tjeerd Bouma (tjeerd.bouma@nioz.nl)
 
 
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Huidige versie van 7 jun 2016 om 13:58

Intertidal landscapes are a harsh environment for both plants and animals. These organisms have to withstand tidal flow, wind waves, anoxic soil conditions, flooding/drought-cycles, and many more stresses. Despite these harsh environmental conditions, a wide range of organisms (plants, algae and benthic animals) inhabits the tidal landscapes, each with their own specific adaptations that enable them to survive. Some of the organisms are even able to modify their physical environment via their structures or activities, which is often referred to as ecosystem engineering. Although the importance of ecosystem engineering for providing ecosystem services is well recognized, the underlying mechanisms explaining how it works are still poorly understood, as it requires an interdisciplinary approach.

We aim to understand which organism traits are most important for i) the ecosystem resilience and long-term survival, ii) their ecosystem engineering effect on the intertidal landscape development and iii) ultimately the ecosystem services they provide (carbon storage, coastal protection and biodiversity).

To answer this question, we combine field and laboratory studies, using state of the art techniques including (wave) flumes, instruments to manipulate and measure mechanical properties of the organisms, various chemical analyses, and many other techniques

Within this research theme we offer several topics, each with the opportunity to tune it towards your specific interest. The possible topics will however strongly depend on the timing of the research. Within this research area, there will be several opportunities to collaborate with the Research Group Building with Nature Building of the HZ Univ. Applied Sciences.














Project summary

Identifying the relation between the traits of intertidal-organism and the ecosystem services they provide: carbon storage, coastal protection and biodiversity

Start date: 1 augustus 2016
End date: 1 februari 2017

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