Chapter 4. 9 Septembre 2016 – Une saison à Husö.
Arctic tern – Husö – Åland island – Baltic Sea – Summer 2016
Credits: © Pierre Olivier – Ocean Fact
That’s it, the sampling season is ending. It is a great time to give you some news. You surely noticed that I was very absent from social networks this summer. I spent two and a half months on the island of Åland in the middle of the Baltic Sea. Why exactly there? On the one hand, Åland is home to a fairly wide variety of species (for the Baltic, which is relatively small compared to the rest of the world), both terrestrial, lacustrine and marine in coastal areas. On the other hand, there is a marine biology station: Husö. If you want to pass the scientific postulate that will follow, go straight to section IV. Otherwise, feel free to read the full article.
I – Building my own foodweb
The cornerstone of my thesis is to build a new type of trophic network. But now I feel like I lost you already. Let me dissect this terms “Trophic network”. First, we have “network” which in this sense means “relationship” (how a group of friends is connected to another group of friend, what are the relationships in common … etc). The second important word is “trophic“, i.e. food. To sum up, a trophic network, also called “food web” is a representation of the dietary relationship between species, in other words, ‘who eats whom’ in an ecosystem. This network represents the flow of energy that flows from prey to predators and how this energy spreads from species to species. A simplified version that you may have already heard about is the food chain: a linear chain of relationships that represents the energy flow from a producer (a plant) to a top predator (a predator at the top of the food chain that has no predator; not forgetting the intermediate species: herbivores, carnivores). This kind of representation would be to simple to represent accurately the reality. Indeed, in nature, at a given place and time, there are several producers, several herbivores, several predators that interact. So there are multiple ways to get from a producer to a top predator. All of these pathways, all of these food chains, form the trophic network. Now that you know a little more, you probably start to imagine how tremendous and fastidious the collection of food web is. You need to know all the species present in an ecosystem and their diet. One should not hesitate to go fishing and collect many times to hope to sample the rare species or to have enough sample to brush a good representation of the diet.
“Nightfall” – Finnish archipelago Saaristomeri. Åland island – Credits : © Pierre Olivier, Ocean Fact.
II – The diet of species
III – The new approach : Traits
We must be honest. There is plenty of food web representations available for the Baltic Sea. The innovation lies in combining multiple approach: food webs and species traits. My PhD project should bring many answers to some theories in ecology (at least, I hope). The traits correspond to each characteristic of an individual of a species. For example, we measure its length, its mass, the surface of the fins for a fish, if it has a shell for an invertebrate, if it is soft, if it has protections, if it migrates, or even where it lives in the water column. We believe that these characteristics influence the structure of the food web (why this species is linked to another? etc.) and can inform about the function of organisms within the ecosystem (i.e. their role and their importance within the ecosystem). By combining these two approaches, it may be possible to understand how the structure of the network contributes in maintaining major functions of the ecosystem (e.g. resilience i.e. how an ecosystem can recover after a perturbation) or how the loss of keystone species can damage the structure of the network and lead to the loss of an essential function in the ecosystem, for example.
IV – A summer at Husö
Saint John’s crown – Midsommar – Åland Island – Credits : © Pierre Olivier, Ocean Fact.
Two local games that you must know:
- The mölkky which looks like a mixture between “pétanque” and bowling but with sticks. The aim of the game: to knock out numbered sticks and reach a certain number of points. It sounds simple in theory… but it is not.
- The kubb looks like petanque and pool (maybe). You play in two teams facing each others. Each team tries to make the other team sticks fall and there is a big stick, the King, in the middle. The king would be the black pool ball. If the King falls before you got rid of all the sticks from the opposing team, you lose the game. The goal for each team is to clear the opposing pins first and then the King (to make it short). When you lose a pin, it gets even worse for your team. You have to throw the lost pin in the space in front of you but before the King area. You need to get rid of this pin before to attack your opponents again. Of the two games, it is the one that asks for the most strategy and the one that I liked most.
Bonus: (i) a DIY link to make your own set of Kubb; (ii) Lots of pictures of people playing at Kubb!
Last big event that marked the end of the season: The Crayfish party. Everyone had a lot of crayfish to share and the evening was sprinkled with homemade Snaps (a.k.a. Schnaps). On top of that, we were singing songs that invited you to drink. We were wearing small hats with the Ålandish flag or with bright red crayfish. The evening ended with a karaoke. Everyone was happy and we forgot about the bad weather. I am back in Turku but soon I would go to Hamburg to meet with FoodWeb experts. I’ll keep you posted.
Crayfish party – Credits: © Pierre Olivier, Ocean Fact
As usual, the local music.
Roxette – Listen to your heart
- Chapter 1 – My acceptance in the MARmaED PhD program – Ocean Fact
- Chapter 2 – Path to become a PhD student – Ocean Fact
- Chapter 3 – MARmaED: the strength of a doctoral program – Ocean Fact
- Chapter 4 – Åland island and Husö – Ocean Fact
- Chapter 5 – Hamburg 2016 – Miniature Wunderland – Ocean Fact
- Chapter 6 – Fall is coming – Ocean Fact
- Chapter 7 – Christmas gift – Scientific surprise – Ocean Fact
- Chapter 8 – A day at the lab in Finland – Ocean Fact
- Chapter 9 – Ice swimming and ice fishing – Ocean Fact
- Chapter 10 – Networking in Scotland – Ocean Fact
- Chapter 11 – Kristineberg and future for Ocean Fact – Ocean Fact