Introduction

As I sit down for lunch in Norway, I reflect on the impact of yesterday's workshop on tornado leadership, which aimed to drive change across industries and the world. I am reminded of a recent post by Nada Ahmed about authenticity on social media and her upcoming book \"Determined to Lead.\" These thoughts lead me to contemplate the power of change and vision, particularly in the context of my project on the human-centered ocean industry. I am excited about this project's potential impact and how we can work together to build a better future.

Envisioning the Future

We discussed the importance of describing and feeling the future in the first-person vernacular at the workshop. To further explore this concept, I want to share a small story of what the future could look like:

Let's imagine 30 years in the future:

Aitae woke up to a notification on her phone that the fleet of vessels in her aquaculture and energy production facility was running smoothly. She could manage the facility's operations from afar with a remote monitoring system.

After going through the logistics, Aitae checked that everything was under control and headed to the facility in her self-driving car. It was just a short automated ferry ride out.

Although the facility was typically without people, she made regular trips to ensure everything was functioning as intended.

Upon arrival, Aitae saw drones flying overhead, conducting routine equipment inspections and checking the fish population. The robots worked tirelessly, maintaining the infrastructure and ensuring the vessels' systems functioned correctly.

Onboard the vessels, Aitae saw that the vessels were using clean fuels produced from waste material and that the aquaculture operations were carried out sustainably with minimal environmental impact. She checked the sensor systems and saw that the fish were healthy and the energy production met customers' demands.

With the help of her co-workers, who monitored and maintained the facility remotely via robot analogs, drone inspections, and sensor systems, Aitae created a state-of-the-art facility operating efficiently and sustainably.

The aquaculture and energy production facility managed by Aitae was essential for the industry and the local community. The facility had created jobs for people in the region, and its sustainable practices had minimal impact on the environment, preserving the area's natural resources.

The fish produced in the facility were being sold locally, providing a fresh and sustainable food source for the people in the region. Clean energy production and materials science have removed the dependence on fossil fuels, making the area more self-sufficient and environmentally friendly.

In addition, Aitae had set up programs to educate the local community about sustainable aquaculture practices and the importance of protecting the oceans. The facility worked closely with local schools and universities, providing hands-on experience for the students and creating a new generation of environmentally conscious leaders.

The facility had become an integral part of the local community, providing economic opportunities and promoting sustainability and environmental awareness. The sustainable practices employed by Aitae and her team had set an example for others in the industry, and they had become a model for sustainable aquaculture and energy production.

As she left the facility, Aitae felt proud of the work that they were doing and the progress they had made in the industry. With remote monitoring, they had created a facility that could run almost entirely without people, reducing their impact on the environment and making operations more cost-effective.

Aitae knew they were on the right track toward a more sustainable and prosperous future for the ocean industry. With the help of technology and innovation, they could continue to make strides toward a better tomorrow.

Impacts of Change

This small story paints a picture of a future where sustainable practices are ingrained in everyday operations, and the impacts of these changes are tangible. This vision of the future inspires me to consider the potential of my project and how it can contribute to creating positive change in the ocean industry.

Motivating Change

At the workshop, we also discussed the importance of motivation and insight in driving change. This small story of the future serves as a motivating force by illustrating a positive vision of what is possible when sustainable practices are embraced. It shows that change is achievable and can lead to tangible benefits. As I reflect on this story, I am encouraged to continue my efforts to promote human-centered practices in the ocean industry and to work towards a future where sustainability is at the forefront of our actions.

Conclusion

In conclusion, the workshop on tornado leadership and Nada Ahmed's insights on authenticity and leadership have inspired me to reflect on the power of change and vision. By envisioning a future where sustainable practices are the norm, we can motivate and inspire others to embrace positive change. As I continue my project on the human-centered ocean industry, I am motivated to work towards building a better future together. Let us strive to tell the story of change and inspire others to join us in creating a more sustainable world.

From the article, I gathered my takeaways and notes from a workshop hosted by the Ocean Opportunity Lab, where Peggy Liu, the "Green Goddess of China," shared her Tornado Leadership methodology and Qigong for leading in the space between the present and future. It highlighted the importance of creating a positive mood for the future we want to build and telling stories of that future to create energy, focus, and momentum for collective action. The focus should be on envisioning what the lives of ocean stakeholders might look like in the future and making it inclusive, safe, smooth, and sustainable. 

By fulfilling the human need to focus on the goalposts, what might the lives of each of our ocean stakeholders be in the future? What will their days look like? How will they feel about their work? What will their work day feel like? How will it flow? Who will they work alongside? What cultural bridges will they make to work together? How will this affect their safety?

How can we find and grow constantly toward an inclusive, safe, smooth, and sustainable future? What can support the transformational growth and implementation of our multi-faceted future? How can we all grow it together? What seeds of the future do we have already:

What is possible for us, and how might we get there?

What would world-class transformation look like?

What would the future collaborative development leadership be?

Introduction

Have you ever wondered how we could achieve the most sustainable fishing operation in the world? Recently, I had the pleasure of speaking with Matts Johansen, the CEO of Aker BioMarine, who shed light on the role of krill fishing in achieving this goal. Krill, the most abundant species on the planet, is a tiny crustacean with a biomass twice the size of the human population. As a vital source of nutrition at the bottom of the food chain, krill has enormous significance in the world's oceans. 

Processed krill has many human and food chain health applications, which have gained momentum in recent years. Companies such as Aker BioMarine are leading the charge toward sustainable harvesting practices and biotech innovations to ensure that krill fishing remains sustainable in the long run.

However, one question remains - how can we ensure that initial investments lead to long-term returns for taking potentially more expensive yet socially just positions in the market? Waiting for regulations to force compliance may lead to penalties and lost opportunities. But what if suppliers and energy producers could work together to create synergistic relationships and promote sustainable practices? 

We also discussed the potential of gamification to encourage desirable behavior on vessels by tapping into competitive natures.

It is important to note that sustainable fishing practices go beyond simply catching the right species in the right amounts. It also includes energy consumption during fishing operations, transportation, and processing. Aker BioMarine has taken a holistic approach to its operations, focusing on reducing emissions and carbon intensity. 

For example, they have reduced the carbon intensity of krill production from 5 kg to 2.5 kg of CO2 per tonne of protein produced between 2010 and 2020. Additionally, they have committed to halving the carbon intensity again by 2030, showing their dedication to reducing their carbon footprint.

During our conversation, Matts also highlighted the industry's importance of collaboration and knowledge sharing. The industry can collectively move towards more sustainable practices by working together and sharing best practices. With the increasing demand for protein and the impact of climate change on marine ecosystems, we must prioritize sustainability in the fishing industry. 

Companies like Aker BioMarine are paving the way toward a more sustainable future. Still, it is up to all of us to support these efforts and make responsible choices regarding our food consumption.

The World of Krill: Sustainable Harvesting and Biotech Innovations in Ocean Industries

Krill harvesting is a relatively new field, with the commercialization of krill as a raw material gaining momentum in the past 15 years. Aker BioMarine, as the world's leading krill company, has been at the forefront of developing sustainable harvesting methods and biotech innovations. The company's mission is to build the most sustainable fishery in the world.

Sustainable Harvesting

Data is one of the most significant ways they have reduced the impact of their operations and operating costs. They are cooperating with Ocean Hub to share the data they have collected in their operations, including sonar data for science and open source use - hopefully, to allow themselves and others to increase the efficiency of operations and improve the knowledge of the impact and opportunities that the ocean provides for human and planetary health. 

Aker BioMarine has been committed to sustainably harvesting krill right from its inception. They have invested in developing technology and refining their harvesting methods to minimize environmental impact. By studying the effects of krill-derived molecules on marine life, they have been able to optimize their harvesting practices and reduce the ecological footprint of their operations.

Sustainability is at the forefront of Aker BioMarine's krill harvesting operations. The company has invested in developing technology and refining its harvesting methods to minimize the impact on the environment. By studying the effects of krill-derived molecules on marine life, they have optimized their harvesting practices and reduced the ecological footprint of their operations. Aker BioMarine has also focused on refining krill-derived nutrients and molecules for various applications, such as human health and aquaculture.

Biotech Innovations 

In addition to sustainable harvesting, Aker BioMarine has focused on refining krill-derived nutrients and molecules for various applications. They have built factories onboard their vessels and on land to extract and process these valuable resources. The company has been studying the potential impacts of krill-derived molecules on human health and has been involved in commercializing their findings.

CO2 and Operations in Food and Fisheries

Krill harvesting operations involve trawling in the Antarctic waters, where a single day of trawling at 0.5 knots can result in the catch of 1,200 tons of krill; their vessels operate in a hub system to enable this high volume of catch with lower emissions with the mothership processing and delivering the krill to shore four or five times per year.

While krill fishing is relatively low-emission, it is important to consider its carbon footprint. Matts Johansen, the CEO of Aker BioMarine, has noted that CO2 emissions associated with krill harvesting are estimated at around 2.5kg per ton of krill harvested. Farmed salmon production emits around 9 tons of CO2 per ton of fish, while meat and agriculture production are even more carbon-intensive.

Protein Sources and Carbon Intensity

Protein is an essential component of our diets, but the production and consumption of protein sources can have significant environmental impacts, particularly greenhouse gas emissions. Here is a list of protein sources ordered by their carbon intensity, from least to most intensive:

• Krill: 0.0025 kg CO2 per kg of protein produced

• Lentils: Approximately 0.9 kg CO2 per kg of protein produced

• Tofu: Approximately 2.0 kg CO2 per kg of protein produced

• Chickpeas: Approximately 1.8 kg CO2 per kg of protein produced

• Chicken: Approximately 3.7 kg CO2 per kg of meat produced

• Pork: Approximately 5.8 kg CO2 per kg of meat produced

• Farmed salmon: Approximately 8.2 kg CO2 per kg of fish produced

• Beef: Approximately 26.5 kg CO2 per kg of meat produced

• Lamb: Approximately 39.2 kg CO2 per kg of meat produced

Krill stands out for its low carbon intensity value, estimated to be around 2.5 kg CO2 per tonne of protein produced, according to Aker BioMarine. This estimate considers the carbon footprint of the entire krill harvesting and processing operation, including fuel use, energy consumption, and transportation. Companies like Aker BioMarine have committed to reducing the carbon footprint of their operations and have set sustainability targets to improve their practices further.

Aquaculture 

Krill and its byproducts are used in aquaculture, particularly in fish farming. The nutrients and molecules derived from krill improve the health and quality of salmon and other fish species, making it an essential component of aquaculture practices.

Reducing emissions in the ocean industry is essential to address the global climate crisis. By investing in clean energy technologies and pursuing sustainable practices, we can help reduce the industry's carbon footprint and work towards a more sustainable future.

Conclusion

The world of krill holds immense potential for sustainable harvesting and biotech innovations. Companies like Aker BioMarine have been at the forefront of developing sustainable harvesting methods and refining their practices to minimize the environmental impact. The ocean industry has a critical role to play in addressing the challenges of climate change and sustainability. By investing in clean energy technologies and pursuing sustainable practices, we can help reduce the industry's carbon footprint and work towards a more sustainable future.

Considering the carbon footprint associated with protein production must be part of our work process in designing a better industry. The carbon intensity values for krill are much lower than those for other protein sources, highlighting the potential of krill as a sustainable protein source.

The need for small advances and improvements must be addressed, and everyone in the ocean space can and should be taking steps toward sustainability. Sharing data, investing in technology, pursuing sustainable practices, and promoting a culture of innovation and collaboration are all critical components of the journey toward sustainability. Let us work together to make small daily improvements so that collectively, we can make significant progress towards a sustainable future for all.

There are even more things we spoke about that you can listen to in the interview.

References: 

The Visualization of Carbon Dioxide Levels

The visualization created by Bill Putman shows a supercomputer model of carbon dioxide levels in the Earth's atmosphere compressed into a few minutes of video. The visualization highlights how the dispersion of CO2 is controlled by large-scale weather patterns within the global circulation. It also shows how the concentration of CO2 varies based on the season and location of major emission sources.

• Reduction in carbon intensity for Krill production from 2010 to 2020: halved from 5 kg to 2.5 kg CO2 per tonne protein produced - Matts

• Reduction in carbon intensity for krill production from 2022 to 2023: They achieved a 15% reduction towards the goal of halving it again by 2030 - Matts

• Atkinson, A., Siegel, V., Pakhomov, E. A., & Rothery, P. (2009). Long-term decline in krill stock and increase in salps within the Southern Ocean. Nature, 432(7013), 100-103. doi: 10.1038/nature02996

• measuring and characterizing the ecological footprint and LIFE CYCLE ENVIRONMENTAL COSTS OF ANTARCTIC KRILL (EUPHAUSIA SUPERBA) PRODUCTS by Robert W. R. Parker

• Aker BioMarine. (2021). Aker BioMarine sets new sustainability targets for its krill fishery. https://www.akerbiomarine.com/news-and-media/news/aker-biomarine-sets-new-sustainability-targets-for-its-krill-fishery/

• FAO. (2013). Tackling climate change through livestock: A global assessment of emissions and mitigation opportunities. http://www.fao.org/3/i3437e/i3437e.pdf

• Swedish University of Agricultural Sciences. (2018). Carbon footprint of farmed salmon: A case study from Norway. https://pub.epsilon.slu.se/14995/1/bengtsson_m_etal_181023.pdf

• Our World in Data. (2021). Protein production. https://ourworldindata.org/protein-production

Introduction

Welcome to day 17 of my research project on ocean space! In this phase, I am focusing on conducting a comprehensive literature review to gather relevant resources and references for my research. As I delve deeper into my project, I realize the importance of citing credible sources and incorporating established methods and concepts into my work, even if it's a personal, unfunded project. In this article, I will share the resources I have discovered and plan to explore further for my literature review.

The Routledge Handbook of the Ocean Space

While searching for resources, I came across \ "The Routledge Handbook of the Ocean Space,\" which I have included on my website's day 17 page along with other resources. This handbook intrigued me as it presents a unique categorization and mapping of the ocean space. I am excited to delve into this book and see how it may influence my categorization and mapping of the ocean space in my research.

Revisiting Maritime Economics by Martin Stopford

One book I plan to revisit is \ "Maritime Economics\" by Martin Stopford. This book is a comprehensive and dense resource that covers maritime history and the market forces that shape the maritime industry. I have had the opportunity to meet Martin Stopford at various events in the past, and I am fortunate to have another chance to hear him speak at an upcoming event in April. Before attending the event, I plan to revisit this book and take more notes to enhance my understanding of the subject matter.

The Design of Everyday Things by Don Norman

Another book on my list for revisiting is \ "The Design of Everyday Things\" by Don Norman. A new edition of this book is available that I have yet to read, although I have read the previous edition. As I review my notes, I realize I need to revisit this book and take more comprehensive notes to better incorporate its insights into my research.

Adding to my Reading List

In addition to revisiting existing resources, I have ordered two new books that I am excited to explore. One is \ "Design and Complexity: Methodology and Practice for System Oriented Design.\" Although it is not available in digital format, I eagerly anticipate its arrival next week. There is also an upcoming event featuring the author, which I may attend online. This book aligns with my research on systemic design and promises to offer valuable insights into addressing complex problems in the industry I am studying.

Another book that I have added to my reading list is \ "Design Journeys through Complex Systems: Practice and Tools for Systemic Design.\" Given the nature of my research on the ocean space industry, this book is particularly relevant as it focuses on systemic design and offers practical tools for addressing complex problems. I am fortunate to have a colleague pursuing a master's degree in systems-oriented design, and I have already gained some valuable insights from our discussions.

I look forward to further expanding my knowledge through this book.

Other Interesting Resources

In addition to the resources mentioned above, I have gathered other valuable resources for my research on ocean governance, industry trends, and sustainable practices. These resources include reports and studies on marine biodiversity, climate change impacts on oceans, conservation efforts, and scientific articles and publications on marine pollution, overfishing, and habitat degradation.

Potential Insights from the Resources

Although these resources have yet to be reviewed or analyzed, I hope they will provide me with a better understanding of the complex dynamics of ocean ecosystems, their challenges, and potential solutions to address them. By examining industry trends and best practices, I aim to identify potential solutions and strategies for promoting sustainability in various sectors, such as fishing, shipping, and tourism.

Importance of Balancing Economic Interests with Environmental Conservation

I anticipate that these resources will provide valuable insights into the importance of balancing economic interests with environmental conservation in the context of ocean governance. Understanding the complex interplay between social, economic, and environmental factors is essential for developing effective policies and practices to ensure our oceans' long-term health and resilience.

Role of International Organizations, Agreements, and Conventions in Shaping Ocean Governance

I will also explore research papers and reports highlighting the role of international organizations, agreements, and conventions in shaping ocean governance at the global level to better understand the legal frameworks and governance mechanisms that exist for protecting the world's oceans and promoting sustainable use of marine resources. It will also shed light on the challenges and gaps in current governance approaches, which can help inform future policy discussions and decision-making processes.

Future Research Goals

My future research will draw on diverse resources to gain insights into ocean governance, industry trends, and sustainable practices. It will emphasize the need for effective governance mechanisms, interdisciplinary approaches, and international cooperation to safeguard the world's oceans for current and future generations. By contributing to the existing knowledge on this critical issue, my research aims to support ongoing efforts toward sustainable ocean governance and promote responsible practices for protecting and preserving our precious marine ecosystems.

Importance of Holistic Approaches and Collective Action

I want to highlight the need for holistic approaches considering the interconnectedness of social, economic, and environmental factors in ocean governance. It will emphasize the importance of addressing key challenges such as marine pollution, overfishing, habitat degradation, and climate change through effective governance mechanisms, collaborative efforts among nations, and sustainable practices by different sectors. It will also underscore the significance of collective action and the role of international organizations, agreements, and conventions in shaping global ocean governance.

Conclusion

In conclusion, my research aims to contribute to ongoing efforts toward sustainable ocean governance by providing valuable insights into critical issues, industry trends, and best practices. By advocating for responsible practices and fostering awareness about the importance of balanced ocean management, I aim to protect and preserve our marine ecosystem and economy for the benefit of current and future generations.

ALSO ON MY TO-READ LIST ARE:

• The Routledge Handbook of Ocean Space (Routledge International Handbooks) by Kimberley Peters, Jon Anderson, Andrew Davies, Philip Steinberg

• Maritime Economics by Martin Stopford

• the latest edition of the Design of Everyday Things by Don Norman,

• Designing Complexity: The Methodology and Practice of Systems-Oriented Design by Sevaldson, Birger

• Design Journeys through Complex Systems: Practice Tools for Systemic Design by Jones, Peter

• The Future of ocean governance Published: 12 January 2021 by Bianca Haas in Reviews in Fish Biology and Fisheries. 

• Ocean Shipping Alliances: The Wave of the Future? Published: 17 December 2001 by Edward J Sheppard & David Seidman, International Journal of maritime economics 

• The Ocean Economy in 2030 https://doi.org/10.1787/9789264251724-en

• We need a global movement to transform ocean science for a better world by Linwood Pendleton, https://doi.org/10.1073/pnas.2005485117

• Science-Industry Collaboration: Sideways or Highways to Ocean Sustainability? by Henrik Osterblom, https://doi.org/10.1016/j.oneear.2020.06.011 

• The Technology Trap: Capital, Labor, and Power in the Age of Automation by: Carl Benedikt Frey

• Shaping the Future of the Fourth Industrial Revolution by Klaus Schwab, Satya Nadella

• Emotion by Design: Creative Leadership Lessons from a Life at Nike by Greg Hoffman

• Thinking in Systems: A Primer by: Donella H. Meadows

• The Knowledge Illusion: Why We Never Think Alone by Steven Sloman, Philip Fernbach

• The Alignment Problem: Machine Learning and Human Values by Brian Christian

• Bias Interrupted: Creating Inclusion for Real and for Good by Joan C. Williams

• Culture Wins by: William Vanderbloemen

• Creating Great Choices: A Leader's Guide to Integrative Thinking by Riel, Jennifer

I READ THESE BEFORE BUT MAY NEED TO REVISIT THEM FOR NOTES:

• Change by Design, Revised and Updated: How Design Thinking Transforms Organizations and Inspires Innovation by Tim Brown

• Human + Machine: Reimagining Work in the Age of AI by: Paul R. Daugherty, H. James Wilson

• Radically Human: How New Technology Is Transforming Business and Shaping Our Future by Paul Daugherty, H. James Wilson

• User Friendly: How the Hidden Rules of Design Are Changing the Way We Live, Work & Play by Robert Fabricant, Cliff Kuang

• Managing The Design Factory: A Product Developer's Toolkit by Reinertsen, Donald G.

• Design of Business: Why Design Thinking is the Next Competitive Advantage by Martin, Roger L.

Please let me know if you have suggestions for me to look at! I hope to get through as much as possible, but it is a long list for the time that remains!

The ocean industry is a vast and complex field, with numerous sectors and services that are interrelated and interconnected, as we have seen from the initial interviews. From fishing and aquaculture to renewable energy and tourism, the ocean industry provides vital resources and services that impact our daily lives. However, many of the operations and activities in the ocean industry are invisible, making it challenging to understand their impact on the visible parts of the industry.

This article provides a more comprehensive overview of the ocean industry, including its visible and invisible parts. We explore the various sectors and services in the industry and examine the relationships between them. We also discuss the importance of collaboration, innovation, and sustainability in the ocean industry.

The Ocean Industry Map: Understanding the Visible Parts of the Industry

One of the critical components of understanding the ocean industry is to examine the visible parts of the industry, including the operations, services, and infrastructure that are readily observable. To do this, we need to create a comprehensive map that provides a clear and holistic view of the different areas of work in the ocean industry.

The ocean industry map includes various sectors and services, such as aquaculture, fishing, renewable energy, transportation, and tourism. It also highlights the interconnections between these sectors and services, emphasizing how they depend on each other to function. The map provides a visual representation of the ocean industry, making it easier to understand the different areas of work and how they relate to each other.

The Invisible Parts of the Industry: Understanding the Services and Finances

While the visible parts of the ocean industry are important, it is also essential to understand the invisible parts of the industry. These are the services and finances that support the visible operations and infrastructure. They are critical to the success and sustainability of the ocean industry but are often overlooked or undervalued.

The services that support the ocean industry include marine finance and lending, marine salvage, and professional services such as chartering, brokerage, and hull clubs. The financing of the ocean industry is complex, involving various stakeholders such as cargo owners, customers, and lenders. The invisible parts of the industry also include regulatory bodies, industry associations, and classification societies, which provide guidance and oversight to visible operations.

Adjacent Industries: Understanding the Customers and Users

Finally, to fully understand the ocean industry, we must examine the adjacent industries that are the customers and users of the industry. These include industries such as shipping, logistics, and offshore oil and gas. The ocean industry provides essential services and resources to these industries, making it an integral part of the global economy.

By examining the adjacent industries, we can identify new opportunities for collaboration and innovation, leading to more sustainable and efficient operations in the ocean industry. We can also address the ocean industry's challenges, such as pollution, overfishing, and climate change, through a coordinated and collaborative approach.

Conclusion: Collaboration, Innovation, and Sustainability in the Ocean Industry

In conclusion, understanding the ocean industry requires a comprehensive view of the visible and invisible parts of the industry and the adjacent industries that rely on it. The ocean industry map provides a visual representation of the different sectors and services in the industry, highlighting the interconnections between them. The invisible parts of the industry, such as marine finance and lending, provide critical support to the visible operations. As well as the adjacent industries are essential customers and users of the industry.

Collaboration, innovation, and sustainability are critical to the success of the ocean industry. By working together and embracing new technologies and practices, we can ensure the long-term health and resilience of the oceans and the industries that rely on them. Let's continue to explore and utilize the oceans in a responsible and sustainable way.