Auf dem Forschungsschiff MARIA S. MERIAN erkunden wir den gesamten Baum des Lebens: Tiere, Algen, Bakterien und Viren. Im Mittelpunkt der Expedition stehen das Nahrungsnetz und die biologische Vielfalt der Ozeane. Einige Tiere, insbesondere Jäger wie Tintenfische (Cephalopoden) und Wale, sind jedoch zu groß, zu schnell oder zu kamerascheu für unsere Instrumente. Um diese Top-Raubtiere aufzuspüren, suchen und sammeln wir genetische Spuren und arbeiten sozusagen als zoologische Forensiker:innen. Meerestiere verlieren beim Schwimmen, Atmen, Fressen und Kotabsatz ständig Zellen und DNA, was zur Freisetzung von genetischem Material führt. Wir sammeln und identifizieren diese so genannte Umwelt-DNA (englisch environmental DNA, kurz: eDNA) mit einer speziell für die Analyse von DNA-Spuren aus Umweltproben entwickelten Methode. Analysiert werden bestimmte DNA-Abschnitte, wie die ribosomale DNA oder Gene, die für die Energieproduktion wichtig sind und bei allen Tieren vorkommen. Die gleichen oder ähnliche essenzielle Gene werden für Bakterien oder einzellige Organismen verwendet. Diese Gene werden später mittels Polymerase-Kettenreaktion (englisch polymerase chain reaction, PCR) aus den Proben vermehrt und mit Hilfe von Sequenzierungstechnologien der nächsten Generation sequenziert. Die Ergebnisse werden später mit genetischen Datenbanken verglichen, um herauszufinden, welche Arten in der Umweltprobe vorkamen.
Während unserer Expedition wird ein innovatives eDNA-Experiment auf dem Tiefseeboden durchgeführt. Dazu hat der Tiefseeroboter ROV PHOCA einen Tiefsee-Lander mit einem Köder auf dem Meeresboden abgesetzt, um die Ablagerung eines Kadavers aus der darüber liegenden Wassersäule zu imitieren. Dieser Kadaver lockt viele Organismen an und dient ihnen als Nahrung, da die Bodenorganismen der Tiefsee weitgehend von der Nahrung aus der darüber liegenden Wassersäule abhängen. Wir kehrten mehrmals mit dem ROV-Roboter zu dieser Stelle zurück, um Sedimentkerne und Wasserproben zu nehmen. Diese Proben werden sofort an Bord für eine spätere eDNA-Analyse aufbewahrt. Im Rahmen des Experiments soll untersucht werden, welche Arten von der Nahrungsablagerung angezogen werden und inwieweit sich die Artenvielfalt und das Ökosystem von Tieren und Bakterien im Laufe der Zeit nach der Nahrungsablagerung verändern.
Die Umweltgenetik, also die Spurensuche im Meer, ist eine moderne Ergänzung, die verschiedene klassische Ansätze der Meeresforschung unterstützt und neue Informationen und Perspektiven beisteuert. Sie ist daher auch ein wesentlicher Bestandteil von MSM126, um Forschung aus verschiedenen Disziplinen zu kombinieren und neue Erkenntnisse zu gewinnen.
Ocean Acidification
Plastic Bottles & Lids Among Top 10 Most Commonly Found Items at Cleanups
This blog was written by Hannah De Frond. Hannah works with Ocean Conservancy and the University of Toronto Trash Team to manage the International Trash Trap Network (ITTN), a global network of local groups using trash traps to increase cleanup efforts, engage communities and inform upstream solutions.
The use of single-use plastics has grown significantly over the last few decades. Many of the plastics thrown away daily—such as plastic packaging, takeout cups, container lids, plastic bottles and grocery bags—are used just once before they are discarded.
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Incredibly, 80% of global marine litter items are made of plastics, primarily food and beverage items such as plastic bottles, bottle caps and lids. These items are also among the top 10 items most commonly collected by Ocean Conservancy’s International Coastal Cleanup® (ICC) volunteers around the world. So, what is it about plastic bottles, caps and lids that makes them so likely to enter the environment, and what can we do to prevent them from polluting our ocean?
Plastic bottles
Plastic bottles are the third most common type of plastic pollution collected throughout the nearly 40-year history of the ICC. From 1986-2023, ICC volunteers removed a staggering 24.3 million plastic bottles from coastlines around the world.
Ocean Conservancy estimates that 127 billion plastic bottles are used in the United States each year; due to their widespread use, they have become a major contributor to environmental pollution. Whole plastic bottles have even been found in the stomachs of an albatross and a sperm whale! As with all plastics, in the environment plastic bottles break up into microplastics that pose a threat to wildlife and potentially to human health as well. Most plastic bottles are made of a type of plastic called polyethylene terephthalate (PET). Though this material on its own is widely recyclable, many PET bottle designs use colored plastics and labels that can prevent them from being sorted or recycled correctly.
How can we tackle plastic bottle pollution?
Refillable beverage containers help reduce our reliance on single-use plastic bottles when we use them to transport tap water, fountain sodas, teas or other beverages. This alleviates the need for single-use beverage bottles each time a refillable container is used and eliminates the possibility that the plastic bottle might go to landfill or be leaked into the environment as pollution.
Policies such as extended producer responsibility (making producers responsible for the waste generated by the use of their plastic products) and deposit-return systems (also known as “bottle bills”) can encourage the redesign and reuse of plastic bottles, while holding the producers of plastic bottles accountable to help pay for the full lifecycle of their materials.
Plastic bottle caps
Along with plastic bottles come plastic bottle caps. When bottle caps are thrown into recycling bins separately from bottles, they are too small to be properly sorted at recycling facilities and instead often end up getting sent to landfill. Bottle caps that end up in the environment can have a considerable impact on marine life. Ocean Conservancy has identified plastic bottle caps as one of the top five deadliest forms of marine pollutionto large species such as seabirds, sea turtles and marine mammals, largely due to the harms of ingesting them. Plastic bottle caps can also generate microplastics when they degrade in the environment, but also from the twisting action used to remove a cap from its plastic ring. When bottles are repeatedly opened and closed from drinking, it potentially increases human exposure to microplastics.
How can we tackle plastic bottle cap pollution?
As with plastic bottles, switching to reusable and refillable beverage containers will reduce the amount of plastic bottle caps that are used and ultimately thrown away. When single-use plastic bottles and caps are used, to ensure that both the plastic bottles and caps get recycled the caps must be screwed back on before they are disposed of for recycling. Policy measures can encourage this behaviour: For example, in Europe it is now legally required for all caps on plastic bottles to be attached or tethered to the bottles. Drinking from bottles with the caps still attached has required some getting used to for consumers, but this subtle change is significantly improving bottle cap recyclability.
Plastic lids
Plastic lids like the ones that come with a cup of coffee, on a fountain beverage or on top of a yogurt container are some of the most commonly found single-use plastic items found on global beaches and waterways. Because of their size, plastic lids are too small or narrow for recycling sorting machines to manage. This means that instead, plastic lids often end up in landfills or burned in incinerators. In fact, plastic lids are the ninth most common type of plastic pollution collected in the history of Ocean Conservancy’s ICC. From 1986-2023, ICC volunteers have encountered and cleaned up more than 7.3 million plastic lids around the world. The United States alone uses more than 60 billion single-use plastic lids each year. That is enough for every adult in the United States to have a beverage with a plastic lid every day for eight straight months each year.
How can we tackle plastic lid pollution?
As with plastic bottles, the need for many plastic lids can be eliminated through investments in reuse or encouraging behavior changes to skip the lid or dispose of them properly. The most effective solution for lids is to transition to reusable cups and lids. Replacing one disposable coffee cup and lid every day for a year with a reusable mug would result in about 15 pounds of plastic waste prevented per person. Just imagine: If 100 million people did this—just under half of all adults in the United States—it would result in roughly 1.5 billion pounds of plastic debris prevented each year.
To reduce the impacts of plastic bottles, bottle caps, lids and other single-use plastics on our ocean we need to handle them better on land. We need to reduce the sheer volume of plastics produced and used, while holding plastic producers responsible for the harmful waste they have generated and continue to pump into the environment. Taking individual action and supporting local and national policies for the reduction, reuse, recycling and redesign of single-use plastic food and beverage items can help to keep our ocean plastic free.
To learn more about the most common types of plastic pollution entering our ocean and what you can do to help, check out our reports on charting a course to plastic-free beaches.
The post Plastic Bottles & Lids Among Top 10 Most Commonly Found Items at Cleanups appeared first on Ocean Conservancy.
Plastic Bottles & Lids Among Top 10 Most Commonly Found Items at Cleanups
Ocean Acidification
Not A Doctor: Lessons I’ve learned from quitting my PhD
I never considered myself a quitter. Usually, I finish what I have started: a 30 minutes high intensity workout after the Christmas holidays for example or the extended version of the third Lord of the Rings movie, also a bachelor program in environmental science and a master in marine science in Kiel. It’s not like it wasn’t painful sometimes, it’s not like I never had doubts – but somehow, I could always convince myself to keep going instead of giving up.
Not so with my PhD in coastal science. I started in 2020 and quit three years later – way before I crossed the finish line. This post is neither meant to justify why I ended my science career nor is it meant to encourage you to do the same. I rather want to share some life lessons that I have learned before, during and after quitting.
1. Quitting your PhD is not the same as giving up
It is a matter of phrasing: I’d rather say I “quit” my PhD instead of “giving it up”. Why? Well, saying I “gave up” gives a bad vibe, doesn’t it? It implies that I wasn’t capable of finishing – which I don’t think is true. Yes, sometimes I felt overwhelmed and not capable. But with the right motivation, focus, support, and more time, I am sure I could have managed. So, I prefer the term “quitting”. It means, that I made a conscious decision to leave this career path and find one that suits me better. Close one door, open another one – you know the game.
2. Making the right decisions is hard
Of course, the decision to quit wasn’t easy and is the result of a long and complex process of evaluating emotions, thoughts, conversations, facts and dreams. But when I finally made up my mind, It didn’t feel like a failure but like instant relief – as if I had made the right choice.
The hardest part was to communicate my “right choice” to others in the science community. Looking into puzzled faces, explaining why I no longer wanted to do the job they all love so much, justifying why I was “throwing it all away” although I had “already come so far” – all of that is tough. It makes you rethink everything over and over again, it makes you feel their disappointment and maybe even makes you doubt the decision, that felt so right before.
Of course, the decision to quit wasn’t easy and is the result of a long and complex process of evaluating emotions, thoughts, conversations, facts and dreams. But when I finally made up my mind, It didn’t feel like a failure but like instant relief – as if I had made the right choice.
The hardest part was to communicate my “right choice” to others in the science community. Looking into puzzled faces, explaining why I no longer wanted to do the job they all love so much, justifying why I was “throwing it all away” although I had “already come so far” – all of that is tough. It makes you rethink everything over and over again, it makes you feel their disappointment and maybe even makes you doubt the decision, that felt so right before.
Luckily, I have family and friends who don’t need any explanations or justifications but support me no matter what – a lesson I have already learned long ago but is always good to refresh.
3. Miss, don’t regret
Now – more than one year later – I still don’t regret leaving academia behind. I miss it, though. I miss learning about coastal science every day, I miss field surveys and research cruises, I miss discussions with colleagues and friends in the office (often not related to our science), miss moaning about our struggles together and empowering each other. I’m definitely a bit melancholic when I look back, but it doesn’t torment me, so it’s all good.
4. You don’t need to know what you want, but what you don’t want
Some might think quitting doesn’t get you anywhere. I disagree. Especially when it comes to tough decisions (and deciding about your career definitely falls into that category), I’ve always been a fan of the process of elimination. It might be slow but it is still progress.
In my case, I realized that the kind of work I did during my PhD was not the kind of work that would fulfil and excite me in the long run. So, I eliminated it. After taking a step back I realized that writing about and communicating science was always what I enjoyed the most. Not knowing exactly what to do with this great discovery, I applied to become a journalist with the local newspaper. Pretty spontaneous, pretty bold choice- but I got the job. It’s totally different from what I did before, but turns out, the writing and human interaction bring me joy and excitement.
So, is that what I want to be now – a local newspaper journalist? Well, I don’t know yet. What I know is that my elimination process led me to a profession that works better for me. So, step by step, I am moving forward, enjoying the journey, and excited to see what’s next.
5. Motivation is key
Truth be told: I could have jumped to conclusions much earlier. Instead, I waited for years to be brave or desperate enough to decide to quit my doctoral journey.
Throwback: In 2018 I submitted my master’s thesis. 160 painful pages of geological interpretations of continental shelf data. After that draining experience, I told myself not to consider starting a dissertation, as it would be even more exhausting.
But one thing led to another, I got several offers that would naturally lead into a PhD and therefore a scientific career. Thus, motivated by the opportunity and the challenge, I took up one of them. What was missing in my motivational cocktail was the actual intention of becoming a scientist.
And that leads me straight to my advice for everyone, who starts a PhD of their own: Before you sign up for it, check your intrinsic motivation. If you want to become a scientist, a PhD is your way to go. If you start the dissertation for other reasons (you just like the subject, it’s a good first job after Uni, it helps you to stay in the country) that is totally fair, too. But then don’t lose yourself and don’t be afraid to let it go.
6. The power of vulnerability
One lesson I just learned recently is the “power of vulnerability”. With this concept, the American social scientist and speaker Brené Brown states that showing vulnerability and communicating failure and struggle is not a weakness. Instead, it leads to innovation, creativity and real connection. Also (and I am sure many of you agree with that) it takes a lot of courage to expose your insecurities and emotions in front of a superior instead of playing professional and pretending everything is going as planned – especially as a woman in a patriarchal system.
Man, I wish I had known about Brown’s work during my PhD. If I had shared more struggles and asked for help more, things might have gone very differently (better, I guess).
Of course, that concept of communication can only work if superiors are open for it. But it is not their responsibility to implement it, but ours. As a new generation of employees, I am sure we can change the way of communicating and connecting in a work environment by showing more honesty and struggles from time to time. Its powerful.
The end is not the end
As I come to the end, I would like to emphasise once again: I don’t want to persuade anyone to quit their PhD. But maybe reading this post will help you learn from my mistakes and reflect on your own career. If it leads you into science or out of it – that really doesn’t matter.
Tanita
Ocean Acidification
2025: A Year for Creativity and Sustainability
The new year has arrived, and with it comes fresh goals and aspirations! This year, I’m committing to being more intentional about the waste I create by repurposing everyday items into something beautiful: a junk journal.
A junk journal is a handmade book crafted from repurposed and reused materials that might otherwise be discarded. The name “junk” comes from the idea of transforming “junk”—old papers, packaging, fabric scraps, and other found objects—into a unique, personalized creation.
What is a Junk Journal?
At its core, junk journaling is about giving new life to unwanted items, turning them into something meaningful and beautiful. It’s an art form that blends elements of scrapbooking, journaling, and mixed-media art while supporting an environmentally conscious lifestyle.
Here are some key features of junk journaling:
- Repurposed Materials: Instead of purchasing new craft supplies, junk journals are made with reused materials like old books, magazines, ticket stubs, envelopes, maps, and fabric scraps.
- Eclectic and Unique Aesthetic: Junk journals have no set style. Their charm lies in their various textures, colors, and patterns, creating a unique look.
- Personalized Creativity: Junk journals are a canvas for self-expression. You can fill them with drawings, collages, photos, journaling, and even found objects with personal meaning.
- Freedom and Imperfection: The beauty of junk journaling lies in its lack of rules. It’s about creativity, not perfection, making it accessible to anyone.
Why am I Junk Journaling?
This project is more than a creative outlet — it’s a way to embrace sustainability while reflecting on my journey toward reducing waste. Here’s what I hope to achieve:
- Sustainability in Action: By repurposing materials, I’ll divert waste from landfills and reduce my environmental impact.
- A Space for Reflection: The journal will record my efforts to live more sustainably and a space for personal growth.
- Art and Memory-Keeping: Junk journaling combines creativity with memory preservation, letting me uniquely capture meaningful moments.
How You Can Start Junk Journaling
Ready to try it yourself? Gather items you’d typically throw away, like old papers, receipts, or packaging, and combine them with materials you already have at home, such as scissors, glue, and markers. Let your imagination guide you as you create something truly your own!
I’m taking a small step toward a more intentional and sustainable lifestyle by starting a junk journal. I can’t wait to see how this creative journey unfolds and inspires positive change in my daily habits. Here’s to making 2025 a year of creativity and conservation!
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