GreenTech
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On Earth Day, April 22, SOSV published the SOSV Climate Tech 100, a list of the best startups that we’ve supported from their earliest stages to address climate change. There are always valuable insights embedded in a list like the 100. A TechCrunch story captured the investment perspective, and an SOSV post went deeper into the companies’ category breakdown and founder profiles.
But what can founders learn from the list about climate tech investors? In other words, who invested in the Climate Tech 100? We dug into the “who’s who” of the list, which had more than 500 investors, and here’s what we found.
If you think 500 investors in 100 companies is a lot of investors, you’re right. There are clearly a lot of investors interested in climate tech, and most are generalists just testing the waters. For the Climate Tech 100, about 10% of investors put their money in more than one startup and only seven (less than 2%) wrote a check to four or more. These included Blue Horizon, CPT Capital, EF, Fifty Years, Hemisphere Ventures and Horizons Ventures.
That pattern tracks well with data from PwC, which found that 2,700 unique investors had backed 1,200 startups in its State of Climate Tech 2020 report covering the 2013-2019 period. The report found that only 10 firms out of 2,700 made four or more climate tech deals per year, on average, over the 2013-2019 period. The most active firms are listed in the table below.
Image Credits: PwC, 2020; additional research by SOSV
Capital deployed in climate tech grew at five times the venture capital overall growth rate over the 2013-2019 period.
There is reason to believe that the fragmentation will diminish with the launch of more funds focused on climate tech. Four funds worth more than a billion dollars each have launched since 2020 that fit the description (see chart below).
It’s also encouraging to see that capital deployed in climate tech grew at five times the venture capital overall growth rate over the 2013-2019 period.
Even so, climate tech still only represented 6% of total venture capital deployed in 2019, so there is plenty of room to grow.
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Every startup is trying to fix something, but Terraformation is tackling the only problem that must matter to all of us: climate change.
This is why it’s in such a big huge hurry. Its mission — as a “forest tech” startup — is to accelerate tree planting by applying a startup-y operational philosophy of scalability to the pressing task of rapidly, sustainably reforesting denuded landscapes — bringing back native trees species to revive former wastelands and shrinking our carbon emissions in the process.
Forests are natural carbon sinks. The problem is we just don’t have enough trees with roots in the ground to offset our emissions. So that at least means the mission is simple: Plant more trees, and plant more trees fast.
Terraformation’s goal is to restore three billion acres of global native forest ecosystems by scaling tree replanting projects in parallel, scaling the use of existing techniques and working with all the partners it can. (For a little context, the U.S. contains some 2.27 billion acres of total land area, per Wikipedia).
So far it says it’s planted “thousands” of trees — with live projects in North America, South America, Africa and Europe, which it hopes will yield up to 20,000 replanted acres. It’s also in talks with partners about more projects that could clad hundreds of thousands of acres with carbon-consuming (and biodiversity-prompting) trees, if they come to full fruition.
That’s still a long way off the 3 billion-acre-wooded moonshot, of course. But Terraformation claims it’s been able to achieve a forestry restoration work-rate that’s 5x the average already. And that’s definitely the kind of “gas stepping” that climate change needs.
Its elevator pitch is also punchy: “Our mission is explicitly to solve climate change through mass reforestation,” says founder Yishan Wong — whose name may be familiar as the ex-Reddit CEO (and also a former early-stage engineer at PayPal/Facebook). “So it’s getting trees in the ground and getting faster at getting trees in the ground.”
It’s not going it alone, either. It’s just announced a first closing of a $30 million Series A funding round, led by Sam & Max Altman at Apollo Projects, the brothers’ “moonshot” fund; plus several high-profile institutional investors (whose names aren’t being disclosed); along with nearly 100 angel investors, including Sundeep Ahuja, Lachy Groom, Sahil Lavingia, Joe Lonsdale, Susan Wu and OVN Cap.
“The [Series A] was a bit larger than we anticipated and the idea is to get us to the next stage of planting orders of magnitude more trees every year,” says Wong. “So it’ll be used both for supporting forestry projects directly, as well as for the development and deployment of forestry acceleration products and technology.”
“The very, very nice thing about mass reforestation or mass restoration as a solution to climate change is that it’s extremely parallelizable,” he adds. “You can plant any tree at the same time as you’re planting some other tree. This is the primary reason why this solution can potentially be implemented within the timetable that we have left. But in order to do so we have to start and drive an enormous, decentralized reforestation campaign across multiple continents and countries.”
The funding follows a $5 million seed last year, as the young startup worked to hone its approach.
Terraformation is targeting the main barriers to successful reforesting: Through early research and pilots it says it’s identified three key bottlenecks to large-scale forest restoration — namely, land availability, freshwater and seed. It then seeks to address each of these pinch-points to viable reforesting — identifying and fashioning modular, sharable solutions (tools, techniques, training etc.) that can help shave off friction and build leafy, branching success.
These products include a seed bank unit it’s devised, housed in a standard shipping container and kitted out with all the equipment (plus solar off-grip capability, if required) to take care of on-site storage for the thousands of native seeds each projects needs to replant a whole forest.
It also offers a nursery kit which also ships in a shipping container — a flat-packed greenhouse that it says a couple of people can put together, and where thousands of seedlings can then be tended and irrigated in pots until they’re ready to plant out.
A third support it offers to the replanting projects it wants to work with is expertise in building solar-powered desalination rigs so young trees can be supplied with adequate water to survive in locations where poor land management may have made conditions for growth difficult and harsh.
It goes without saying that planted trees which fail because of poor processes won’t help cut carbon emissions. Badly managed replanting is at best wasteful — and may be closer to cynical greenwashing in some cases. (Poor quality projects can be a known problem where claims of corporate carbon offsetting are being made, for example.)
Terraformation is thus zeroing in on repeatable ways to scale and accelerate the successful planting and nurturing of trees, from seed to sapling and beyond, to accelerate sustainable reforesting.
Ultimately, it’s the only kind of tree planting that will really count in the fight against climate change.
Its first pilot restoration projects began in Hawai’i in 2019 — where it’s been able to plant thousands of trees at a site called Pacific Flight, reviving a native tropical sandalwood forest that had been logged unsustainably. To enable the young trees to grow in land which had also become arid as a result of cattle grazing, the team built the world’s largest fully off-grid, solar-powered desalination system to supply sustainable freshwater to the baby forest.
“The arid environment, high winds, and degraded soils meant that if a team could restore a forest there, they could do it anywhere,” is the pitch on its website.
The Series A will go toward spinning up lots more such native species forest restoration projects — working via partnerships, with organizations such as Environmental Defenders in Uganda, and other groups in Ecuador, Haiti and Tanzania — as well as on more R&D (additional products are in the pipeline, we’re told); and on expanding headcount so its team has the legs to run faster.
Interestingly, for a startup with a Silicon Valley engineering pedigree at its core, the team’s approach is intentionally light on technology — leaning only on vital tech (like solar and desalination), rather than experimental bells and whistles (drones, robotics etc.) to ensure the processes it’s packaging up for massive replanting parallelism remain as simple, accessible and reliable as possible. So they are able to scale all over the globe.
It’s clear that sci-fi robotic gadgetry isn’t the answer here. It’s sweating toil plus tried and tested horticulture processes, done systematically and repeatedly, in mass parallelism all over the world that’s required, argues Wong, whose years in tech have given him a healthy skepticism on the issue of over-engineering. (“The biggest lesson I learned was, you want to solve a big problem? You want to use as little technology as possible… Technology’s always breaking, it’s always got flaws. The biggest problem with technology is technology.”)
“I would say that the key contribution that ‘tech’ — if you think of a monolith or a culture or whatever — will make to climate change, is not in fact some new invention or some gadget or some sort of special magical technology… I think it really is the practice of scalability,” he goes on. “Which is an organizational end. A management way of thinking. Because that is actually something that has been carefully and painfully developed… over the past 20 years in Silicon Valley. How to take small working solutions, how to solve very big problems, how to scale them. And it isn’t a very glamorous thing — which is why I think it’s one of the more pure disciplines.
“It just has been less corrupt… Scalability is just people thinking hard and grinding it out to address really hard big problems. And I think that practice and all the little tips and rules that we have to doing that is the real contribution that tech is going to make — with one of those principles being use as little tech as you can.”
Terraformation is building software tools too — such as a mobile app to help with cataloguing and monitoring seeds. But the really critical technologies involved, solar and desalination, are very much at the “tried and tested” end of the tech scale (“very, very reliable and refined”.).
Wong points out that a key development for solar and desalination is related to the unit economics — with falling costs allowing for scalability and thus speed.
Asked whether Terraformation is a business in the typical startup sense, Wong says it’s been set up in a familiar way — as a Delaware C Corp — but purely because he says that’s just the quickest way to be able to operate. Doing stuff as a nonprofit would be way too slow, he says, describing it thusly as a “non nonprofit” (rather than a business with a for-profit mission).
Aka: “It’s a corporate with investors but primarily the aim is to solve climate change.”
Startup investors are of course often betting their money on the chance of a quick and meaty return. But not here, confirms Wong. “When we raised funding all of our investors invested primarily because they wanted to see climate change solved,” he tells TechCrunch. “To many of them this was the first time that a plausible, full-scale solution to solving climate change had been presented.
“It’s still very, very hard. It’s very, very large. It’s really daunting. But it’s the first time someone has mapped out a path that could actually get us there. And so all of our investors invested because they want to see that happen.”
So how will a “non nonprofit” startup (even with $30 million just banked) get its hands on enough land to plant enough trees? A variety of ways, per Wong. (Perhaps even, in some instances, landowners could end up paying it to turn their dirt into beautiful woodland.)
“The short answer is anywhere we can!” he adds. “The solution is structured to give us maximum flexibility, given that we can use a large variety of land. We don’t want to count on any particular land owning entity — and I use that very broad term to mean like people, communities, governments, municipalities — we don’t want to rely on any one particular land-owning entity wanting to work with us or allowing us to reforest the land, because you can’t guarantee that.”
He also notes that Terraformation’s plan to fix climate change is based on “worse-case scenarios” — where “no one who owns any land that gets enough natural rainfall for forest restoration will allow it to reforest it”. “We use the least valuable land — basically desertified, degraded land,” he adds. “Is there enough of that? And it turns out there is.”
Even though personal financial upside clearly isn’t front of mind for Terraformation’s investors, Wong still believes there’s plenty of “value” to be unlocked as a byproduct of spreading leafy-green goodness all over the planet versus funding more extractive exploitation.
“It turns out that solving climate change is actually a huge value-creating act,” he argues. “My experience in Silicon Valley is if you have people who believe in you and believe in the thing that you’re creating is ultimately value-creating then it’s actually also wealth creating. If you do something that is fundamentally very, very valuable and you’re right next to it, you will be able to monetize it in some way. You will capture some of that value for your shareholders. So it’s a bet that if you really can solve climate change, that’s super valuable, both for the world and to the entity that’s [investing].”
Of course climate change is more than just a problem; it’s an existential threat to all life on Earth — one which affects humans and every other living creature and thing on the planet.
Given such terminal stakes, reversing climate change should be the highest global priority. Instead, humans have procrastinated — putting dealing with rises in atmospheric CO2 on the back-burner and worse (cutting down existing forests like the Amazon Rainforest, for one).
Set against that backdrop, Terraformation’s answer to humanity’s greatest crisis looks compellingly simple. Its bet is that climate change can be fixed by scaling the most proven technology possible (trees) to capture carbon emissions. Who can argue with that?
But it does also seem clear that reforesting will need to go hand in hand with a mainstreaming of conservation, as a prevailing societal attitude, if the mission is to be pulled off — otherwise all these beautiful baby trees could just meet the same sad fate as all the Earth’s already lost forests.
Nonetheless, conservation is something Wong’s team is deliberately not focusing on.
Not because they don’t care. Rather their hope is that by building the baby forests, the protective partners will come — to watch over and get value from the trees as they grow.
“I don’t want to make it seem like we don’t care about [forestry conservation] but one of the things that I try to do is figure out where people are already doing work and things are already moving in the right direction — and then go work on the thing that other people are not working on,” he says when we ask about this. “When I talk to people in the forestry world many, many people are working on avoiding deforestation, helping solve the broader socioeconomic issues that result in deforestation. And so I feel like there is momentum moving in that direction — so we have to work on this other issue that other people aren’t working on.”
Wong also argues that forests are naturally more valuable than the denuded waste/scrub ground they’re replanting — implying that pure economic interest should help these baby forests survive and thrive far into the future.
However the history of humanity shows that unequal wealth distribution can wreak all sorts of havoc on a resource-rich natural environment. And people who live in poverty may well be disproportionately more likely to like in a rural location, on or near land that Terraformation hopes to target for replanting. So if these forests can’t provide — in crude terms — ‘value’ for their local communities the risk is the same cycle of short-term economic harm will rip all this hard work (and hope) out of the ground once again.
Wealth inequality lies at the core of much of humanity’s counterproductive destruction of the environment. So, seen from that angle, reforesting the planet may require just as much effort toward tackling — root and branch — the wider socioeconomic fault-lines of our world, as it will washing, sorting and storing seed, watering seedlings and nurturing and planting saplings.
And that further dials up an already massive climate challenge. But, again, Wong is quietly hopeful.
“People aren’t cutting down trees because they’re evil, they’re cutting down trees because they need to make a living. So we have to provide them with ways to make a living that is more valuable than cutting down the trees. I think that recognition is moving in the correct direction — so I’m hopeful there,” he says.
Asked what keeps him up at night, he also has a straightforward answer to hand — one we’ve heard many times already from a new generation of climate campaigners, like Greta Thunberg, whose futures will be irrevocably stamped by the effects of climate change: Humanity simply isn’t moving fast enough.
“In order to do this we have to make order of magnitude improvements in both speed and scale — which is technically a thing that we know how to do but is among the most daunting things that you ever try to undertake. So… are we moving fast enough? Are we doing enough? Because time is running out,” warns Wong.
“The time frame that we have left is very small when compared to the planetary scale of the problem. And so I think the only way that we’re going to get there is with proven solutions, moving, growing at exponential speed.”
“I am [hopeful],” he adds. “I’m a big fan of humans working together. People can really do it. I’m very I guess what you’d call pro-human. We have a lot of flaws, we fight amongst ourselves a lot, but I really think that when people work together they can really do amazing, amazing things… Trees gave us life and so now it’s our time to repay that debt.”
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Electric vehicle startup Fisker Inc. has set a moonshot goal of creating its first climate-neutral car by 2027.
Fisker has yet to bring a vehicle to market — climate neutral or not — making this an ambitious target. The all-electric Fisker Ocean SUV, which is still on track to go into production in November 2022, will not be climate neutral, according to CEO Henrik Fisker, who laid out the target as part of a broader update Tuesday to investors. Instead, this will be another yet to be announced vehicle.
Henrik Fisker, a serial entrepreneur who rose to fame as the designer behind iconic vehicles like the Aston Martin V8 Vantage, the production launch design of the Aston Martin DB9 and the BMW Z8 roadster, also provided a few other updates during the investor call. He said the Ocean will have an anticipated range of up to 350 miles, beyond the previously estimated 300 miles. The company has received more than 14,000 reservations for the Ocean as of March, according to an annual report distributed to shareholders.
Fisker, which went public via a merger with special purpose acquisition company Apollo Global Management Inc. in October at a valuation of $2.9 billion, aims to have four vehicles to market by 2025. One of those, Fisker hinted at Tuesday, could be a luxury vehicle which he called the “UFO” that will use the company’s FM29 platform architecture.
Other companies across industries have made promises to hit that carbon-neutral goal before. Henrik Fisker emphasized to investors that the company will not purchase carbon offsets to accomplish that climate-neutrality goal. Carbon offsets are credits that companies can purchase to “claim” a reduction in CO2 toward their project or product. Instead, Fisker said they will work with suppliers to develop climate-neutral materials and manufacturing processes.
The company lays out some of its proposed strategies on its website, where it splits the vehicle lifecycle into five phases: upstream sourcing, manufacturing and assembly, logistics, the use phase and end-of-life. For each phase, the company lists a few bullet points, such as localizing manufacturing. Even with these plans, achieving climate neutrality in vehicle production will be extremely difficult. Vehicles use materials and components such as steel that are notoriously hard to decarbonize, for example.
Fisker said that the company’s manufacturing partners have climate-neutral goals of their own, which is true for automotive contract manufacturer Magna Steyr. The company inked a deal with Fisker to exclusively manufacturer the Fisker Ocean in Europe. Magna set a target of climate neutrality for its European operations by 2025 and globally by 2030. Foxconn, Fisker’s other major partner for its second, lower-price vehicle dubbed Project PEAR, also has a net-zero emissions goal, but it is set for the middle of the century.
Moonshot goals such as this one could help push innovation in manufacturing processes and encourage other automakers and suppliers to reach for the same targets. Other automakers such as Polestar and Porsche have all made carbon-neutral promises with deadlines of 2030, while Mercedes has said it will hit that target in 2039.
Fisker does seem to have a plan for how it might be able to recycle or reuse some of its EV batteries once they’re no longer useful in the vehicle. The company plans to extend its leasing program across the entire estimated 15-year lifespan of the vehicle, which would theoretically ensure that Fisker will be in possession of a number of its vehicles when they reach end-of-life.
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Ending years of debates over environmental sustainability, the United States officially declared a climate crisis earlier this year, deeming climate considerations an “essential element” of foreign policy and national security. After recommitting the U.S. to the Paris Agreement, President Joseph R. Biden announced an aggressive new goal for reducing U.S. greenhouse gas emissions and pushed world leaders to collectively “step up” their fight against climate change.
At the same time, consumers are increasingly looking to do business with brands that align with their growing environmental values, rather than ignoring the climate consequences of their consumption. Even without regulation as a stick, consumer demand is now serving as a carrot to increase sustainability’s impact on public companies’ agendas.
Startups have already followed suit. Investors today view sustainability as an important pillar of any business model and are looking for entrepreneurs who “get it” from the beginning to build and scale next-generation companies. Startups interested in thriving cannot treat sustainability as an afterthought and should be prepared to enter the public eye with a plan for sustainable growth.
Today, companies of all sizes are being held to a higher standard by consumers, employees, potential partners and the media.
So what exactly do founders need to put in place to demonstrate that they’re on the right track when it comes to sustainability? Here are five attributes that investors are looking for.
It’s fairly easy for any company to claim that it understands customers’ wants and needs, but it’s challenging to have the tech stack in place to prove a company actually listens to customer feedback and meets those expectations.
Investors now expect startups to have both platforms and solutions — social listening channels, relationship management tools, surveying programs and review forums — that allow them to hear and act on the needs of their customers. Without the proper communications tools and actual people using them, your eco-friendly efforts will likely appear to be merely lip service.
Take the example of TemperPack, which manufactures recyclable insulated packaging solutions for shipments of cold, perishable foods and pharmaceuticals. The direct relationship between a packager like TemperPack and the end consumer is often invisible. But as we were looking into investing in the company, some of its life sciences customers told us about comments they had received from end users — people who were receiving medicine twice per day. Another supplier’s packaging required them to visit a recycler for disposal, a real-world pain point that was causing them to consider switching to a different medication.
Revolution Growth decided to add TemperPack as a portfolio company after directly seeing its customer feedback loop in action: End-user requests informed product development, proving both a market need and customer demand on the sustainability front. This firsthand example demonstrates how an investor, a packaging maker, a life sciences company and an end user are now interconnected in one relationship while underscoring how end-user feedback can connect the dots for sustainable product development.
Over the past several years, we have seen millennials and Gen Z consumers demand transparency in sustainability efforts. As these generations grow in purchasing power, investors will look for startups that make their commitments to eco-friendly goals as transparent as possible to satisfy shrewd consumer needs.
For many VCs, making public commitments to sustainability goals is a sign that your startup is working toward becoming a next-generation company. Investors will look for goals that are thoughtful, with a clear understanding of where your company will have agency and influence, and that are S.M.A.R.T (Specific, Measurable, Achievable, Realistic and Timely). They will also expect regular reports on progress.
Although a company’s management establishes these goals, its board should play a behind-the-scenes role in driving the goals forward, keeping leadership on track and setting the playing field so executives understand that they’re being evaluated on criteria transcending positive EBIDTA.
Taking these steps will ensure goals are responsible and ambitious while also holding the company accountable to consumers and stakeholders to see the initiatives through to completion.
Even the best-laid sustainability goals will go unmet without a strong culture designed to guarantee leadership and employee alignment. Sustainability must be ingrained in a startup’s culture — from the top down and bottom up — and there’s a lot at stake if it’s not.
Another Revolution Growth portfolio company, the global fintech-revolutionizing startup Tala, demonstrates how young companies can imbue their cultures with purpose-driven values. While Tala’s mission is to provide credit to the unbanked, the company believes that the consumer’s best interests should always come first. During 2019’s holiday season, Tala contrasted with businesses fueling consumption by instead urging customers in Kenya to not take out loans, protecting them from predatory unregulated lenders amid a lack of functioning credit bureaus and loan-stacking databases. This forward-looking approach ultimately safeguarded Tala’s customers and its vibrant digital lending industry.
Beyond determining what they stand for, many of our portfolio companies face challenges securing talent. People have choices about where they want to work, and those with intrinsic motivations — such as concerns about the environment — will feel uncomfortable if their employers do not share their values. Regulatory risks and customer attrition pale in comparison to the human cost of losing star performers who seek other work cultures that better align with their values.
A clear values system should embed sustainability into the decision-making process, make obvious imperatives and empower employees to follow through.
Companies aren’t only judged by their own initiatives — they’re also judged by their partners. As startups build new relationships or expand to work with new suppliers, investors will be keen to know that these outside parties align with their stated sustainability philosophies.
Before becoming publicly involved with another company, a startup should gauge each new supplier’s reputation, including insights into their employment practices. Take leading Mediterranean fast-casual restaurant Cava or healthy-inspired salad-centric chain Sweetgreen, both Revolution Growth portfolio companies; neither will source proteins from farms with inhumane policies. If companies are not aware of these factors, their customers will eventually let them know, and likely hold them accountable for the oversight.
Think of it this way: If a diagram of your partnerships and supplier relationships was printed on the front page of The New York Times, would you be comfortable with what it shows the world? Today, companies of all sizes are being held to a higher standard by consumers, employees, potential partners and the media. It’s no longer possible to fly under the radar with relationships that are antithetical to a company’s sustainability goals. So take a hard look at your supplier and partner ecosystem, and make clear that you are bringing your green vision to life through every extension of your business.
Financial realism acknowledges that a company can want to do good, but unless they have the economics, they won’t survive to make an impact. For most startups, beginning with financial realism as a mindset and incrementalism as an approach will be key to success, enabling all businesses to contribute to a more resilient planet. For startups that prioritize environmentally friendly business practices alongside a product or service, this strategy can prevent goodness from becoming the enemy of greatness. Founders in this position can commit to a stage-by-stage sustainability plan, rather than expecting an overnight transformation. Investors understand the delicate balance between striving to meet green goals and keeping the lights on.
Entrepreneurs looking to build a business that not only adopts eco-friendly practices but also has sustainability at its heart may have to consider starting in a niche industry or market that is less price-sensitive and ready for a solution today. Once that solution is firmly established, the business can build upon what they’ve created, rather than going big with something that doesn’t scale — and failing fast. Without an initial set of customers that value and love what you’re doing, you won’t get to the bigger play.
As the public and private sectors continue to address the climate crisis, sustainability will increasingly become a mandate rather than an option, and funding will increasingly flow to startups that have addressed potential environmental concerns. Unfortunately, pressure for companies to meet sustainability demands has led to “greenwashing” — the deceptive use of green marketing to persuade consumers that a company’s products, aims and policies are environmentally friendly.
Greenwashing has forced investors to look beyond mere words for action. As we move toward a more sustainable future, startups pursuing VC funding will need to prove to investors that sustainability is a priority across their entire organizations, aligning their outreach, public commitments and cultures with accountability and concrete examples of sustainable activities. Even if those examples are just steps toward larger goals, they will show investors and customers that startups are ready today to contribute to a greener and better tomorrow.
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When it comes to sustainable livestock production and agriculture, measurement is the first — and sometimes most elusive — step in the process of turning our food system from a carbon emitter into a carbon sink.
So DSM, a science-based company that focuses on agriculture and other parts of our food systems, and Blonk, a data analytics for sustainability consultancy, developed Sustell, a combination software and practical service for ranchers to understand and improve the sustainability of their operations.
While sustainable and regenerative agriculture doesn’t have a universally agreed-upon definition, it usually involves changing land management practices to sequester more carbon in the soil, using more environmentally friendly animal feeds and reducing fossil fuel usage of tractors and other farm equipment among many other changes. The goal is to reduce the 7.1 gigatonnes of CO2 released into the atmosphere, about 14.5% of all greenhouse gas emissions, created by the livestock industry.
“There’s this tremendous need for accurate footprinting of animal production down to the individual farm level,” said David Nickell, vice president of sustainability and business solutions at DSM. “And each farm, of course, is very different. And you have to have a system which is able to use actual farm data, and to get an accurate picture of that particular farm.”
The system analyzes the environmental impact of a farm’s activity on 19 different categories, including climate change, resource use, water scarcity, runoff and ozone depletion. Farmers provide data on their daily operations, including feed composition and use, manure management practices, animal mortality, the electricity system and the other infrastructure, transportation logistics and mitigation technologies employed, like scrubbers or excess heat circulation systems, and sometimes packaging to the software.
Blonk’s environmental footprint technology then produces a life cycle assessment of the farm, an analysis of the environmental impact of rearing an animal from inception to when it exits the farm gate. DSM and Blonk have created Sustell modules for most land farm animals, including chickens, pigs and dairy and egg production, and plans to extend it to cover beef and aquaculture.
“What is really key is that we were able to build on this momentum of methodologies and standards that have been developed,” said Hans Blonk, CEO of Blonk Consultants and Blonk Sustainability Tools.
Blonk was able to combine agriculture environmental standards from the Food and Agriculture Organization of the United Nations, European Commission and many others in one place to create the vast library of background data needed for the software to produce useful and actionable insights.
“Customers at the moment really want to understand what they’re doing,” Nickell said. “They want to understand their baseline [footprint] and rank them. Understand what’s good, and what’s not so good. Customers want to understand how they rate compared to peer benchmarking, whether it’s a country or an industry benchmark.”
Once the Sustell software gives farmers clarity on the emissions on their farms, they can then identify where improvements need to be made and DSM helps implement ways of reducing those emissions, creating an end-to-end service for customers and hopefully a positive impact on the planet.
“Practical interventions make change happen,” Nickell said. “We’ve invested in technologies which reduce the footprint of animal products production. The service is measurement and marry that up with bringing solutions, which make a difference. That’s the complete solution to making this much-needed change happen.”
But in order for Sustell to create that change, it needs to be adopted widely and the learnings need to be shared between competitors. Right now, DSM and, in some ways, the capitalist system, isn’t set up for that.
According to Nickell, DSM is first focusing Sustell on big integrated livestock companies. This is a common challenge with new innovative environmental technologies that can be adopted by big farming conglomerates or co-ops with money and resources to spend, while smaller family farms get left behind. But Nickell hopes that Sustell can scale to work with smaller farms, as well.
The second issue is around data sharing. While Nickell was very clear that Sustell will be following all applicable data privacy and ownership rules — and that’s usually a good thing — in order to really create meaningful environmental change, transparency is actually key. Competitors need to share the best ways for reducing emissions so everyone can adopt them and save the planet, but many companies are very data protective.
“I think maybe that [data sharing] develops in time,” Nickell said. “I don’t think we’re there yet. Maybe it will get to that level as more and more customers are transparent on their footprint and their reporting.”
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Hydrogen-based generators are an environmentally friendly alternative to ones powered by diesel fuel. But many rely on solar, hydro or wind power, which aren’t available all the time. Brisbane-based Endua is making hydrogen-based power generators more accessible by using electrolysis to create more hydrogen and storing it for long-term use. The startup’s technology was developed at CSIRO, Australian’s national science agency, and is being commercialized by Main Sequence, the venture fund founded by CSIRO and Ampol, one of the country’s largest fuel companies.
Main Sequence’s venture science model means that it first identifies a global challenge, then brings together the technology, team and investors to launch a startup that can address that problem. Through the program, Paul Sernia, the founder of electric vehicle charger maker Tritium, was brought on to serve as Endua’s chief executive officer, working with Main Sequence partner Martin Duursma to commercialize the hydrogen-based power generation and storage technology developed at CSIRO. Ampol will serve as Endua’s industry partner.
Endua is backed by $5 million AUD (about $3.9 million USD) from Main Sequence, CSIRO and Ampol. The company plans to launch in Australia first before expanding into other countries.
Sernia told TechCrunch that Endua was created to “solve one of the biggest problems facing the transition to renewable energy — how to store renewable energy in large quantities, for long periods of time.”
Endua’s modular power banks can run up to 150 kilowatts per pack and be extended for different use cases, serving as an alternative to power generators that run on diesel fuel. Batteries serve as backup, but Endua’s goal is to deliver renewable energy that can be stored in large quantities, enabling off-grid infrastructure and communities to have self-sustaining power sources.
“Hydrogen electrolysis technology has been around for quite some time but it still has a long way to go to meet the expectations of commercial markets and be cost-effective when compared to existing energy sources,” Sernia said. “The technology we’ve developed with CSIRO enables us to make the cost more affordable compared to fossil fuel sources, more reliable and easily maintained in remote communities.”
The startup plans to focus on industrial clients before reaching smaller businesses and residences. “One of the biggest opportunities, that few have really tackled, is that of diesel generator users like regional communities, mines or remote infrastructure,” Sernia said. “In farming, Endua’s solution could be used to power equipment such as a bore or irrigation pumps.” The power banks can plug into existing renewable energy systems, including solar and wind, to make the switch economical for users, he added. Water is part of the electrolysis process, but only a small amount is needed.
“Batteries are a great way to deliver dispatchable power in small increments and are a complementary part of the overall transition plan, but we’re focusing on delivering renewable energy that can be stored in large quantities, for large periods of time, so communities and remote infrastructure can access reliable, renewable energy at any time of day,” Sernia told TechCrunch.
Ampol is working with Endua as part of its Future Energy and Decarbonisation Strategy. It will test and commercialize Endua’s tech to reach its 80,000 B2B customers, focusing first on the off-grid diesel generator market, which the company said generates 200,000 tonnes of carbon emissions per year.
In a press statement, Ampol managing director and CEO Matthew Halliday said, “We are excited to be involved with Endua, which is part of our commitment to extending our customer value proposition by finding and developing new energy solutions that will assist with their energy transition.”
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Builders, creators and developers, this one’s for you! TechCrunch has always been about discovering fresh solutions and shining the light on exciting, new products that have the potential to make a difference. Our past hackathons have been the breeding ground for products like Alexa Shop Assist, Quick Insurance, reVIVE and GroupMe, which went on to be acquired by Skype.
This year, we’ve partnered with Product Hunt’s Makers Festival to give builders a platform to unleash their creativity and bring their ideas to reality — and even have a chance to get some exposure at Disrupt 2021. This Makers Festival is centered all around green tech and environmental ingenuity. As humans, our daily connections to the environment are all-encompassing, including how we eat, pay, invest, shop, advocate and travel. That means there are better solutions everywhere, too. Get inspired and ask yourself “what haven’t we tried yet?”
The grand prize winner will get a free spot to launch their product to the TechCrunch community at Disrupt 2021 in Startup Alley along with a bunch of other prizes and tools to help you kickstart your product.
Register here for free and get your creative juices flowing. Make sure you sign up asap as registration closes tomorrow, June 4.
And who knows — maybe your product will be the next one snapped up at Disrupt!
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Climate change is intensifying across the globe, and one of the most challenging cases is Japan. In addition to lying on a major fault, the archipelago is increasingly inundated from rising sea levels that make the country more prone to disasters. A decade ago, the Tohoku earthquake and tsunami dealt billions of dollars in damage, and the recovery from that tragedy remains a major international relations flashpoint.
Technology to address disasters and resilience is a key area of venture capital investment these days, and now another startup in the space is proving that there is widespread interest in this growing market.
One Concern, which builds a platform to model and simulate community resilience and response to earthquakes, floods and other natural disasters, announced this morning that it has raised $45 million from SOMPO Holdings, the holding company of Japan’s SOMPO, one of the country’s largest insurers. The investment is part of a total $100 million, multi-year deal that will plug One Concern’s platform into the Japanese market.
Japan has been something of a gem in One Concern’s market development the past few years. The startup hired Hitoshi Akimoto as country manager for Japan in late 2019 before formally announcing that it was expanding to Japan in February 2020. In August last year, it announced a strategic partnership with SOMPO, and the insurer’s holding company invested $15 million. Today’s deal expands that partnership further.
According to its press release, One Concern will sell its platform to six or more Japanese cities as part of the tie-up.
Previously, One Concern had raised three rounds of capital according to Crunchbase and SEC filings: a seed round in October 2015, a $33 million Series A round led by NEA in 2017 and a $37 million round also co-led by NEA. The company was founded in 2015.
Update June 3, 2021: Rephrased SOMPO Holdings as the parent company of SOMPO, and not its venture wing.
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With wildfires becoming an ever more devastating annual phenomenon, it is in the whole planet’s interest to spot them and respond as early as possible — and the best vantage point for that is space. OroraTech is a German startup building a constellation of small satellites to power a global wildfire warning system, and will be using a freshly raised €5.8 million (~$7 million) A round to kick things off.
Wildfires destroy tens of millions of acres of forest every year, causing immense harm to people and the planet in countless ways. Once they’ve grown to a certain size, they’re near impossible to stop, so the earlier they can be located and worked against, the better.
But these fires can start just about anywhere in a dried out forest hundreds of miles wide, and literally every minute and hour counts — watch towers, helicopter flights and other frequently used methods may not be fast or exact enough to effectively counteract this increasingly serious threat. Not to mention they’re expensive and often dangerous jobs for those who perform them.
OroraTech’s plan is to use a constellation of about 100 satellites equipped with custom infrared cameras to watch the entire globe (or at least the parts most likely to burst into flame) at once, reporting any fire bigger than 10 meters across within half an hour.
To start out with, the Bavarian company has used data from over a dozen satellites already in space, in order to prove out the service on the ground. But with this funding round they are set to put their own bird in the air, a shoebox-sized satellite with a custom infrared sensor that will be launched by Spire later this year. Onboard machine learning processing of this imagery simplifies the downstream process.
Fourteen more satellites are planned for launch by 2023, presumably once they’ve kicked the proverbial tires on the first one and come up with the inevitable improvements.
“In order to cover even more regions in the future and to be able to give warning earlier, we aim to launch our own specialized satellite constellation into orbit,” said CEO and co-founder Thomas Grübler in a press release. “We are therefore delighted to have renowned investors on board to support us with capital and technological know-how in implementing our plans.”
Those renowned investors consist of Findus Venture and Ananda Impact Ventures, which led the round, followed by APEX Ventures, BayernKapital, Clemens Kaiser, SpaceTec Capital and Ingo Baumann. The company was spun out of research done by the founders at TUM, which maintains an interest.
“It is absolutely remarkable what they have built up and achieved so far despite limited financial resources and we feel very proud that we are allowed to be part of this inspiring and ambitious NewSpace project,” APEX’s Wolfgang Neubert said, and indeed it’s impressive to have a leading space-based data service with little cash (it raised an undisclosed seed about a year ago) and no satellites.
It’s not the only company doing infrared imagery of the Earth’s surface; SatelliteVu recently raised money to launch its own, much smaller constellation, though it’s focused on monitoring cities and other high-interest areas, not the vast expanse of forests. And ConstellR is aimed (literally) at the farming world, monitoring fields for precision crop management.
With money in its pocket Orora can expand and start providing its improved detection services, though sadly, it likely won’t be upgrading before wildfire season hits the northern hemisphere this year.
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The European Commission has announced a partnership with Bill Gates’ sustainable energy funding vehicle with the goal of unlocking new investments for clean tech and sustainable energy projects totaling up to $1 billion (€820 million) over five years (2022-2026).
EU-based projects the partnership will initially focus on four sectors that are being prioritized for their potential to deliver substantial reductions in regional emissions — namely:
The goal is to scale technologies that are currently too expensive to compete with fossil-fuel-based incumbent technologies.
The pair said they will continue to work on setting up the program over the coming months, with an eye on having something further to announce at the COP-26 conference in November.
It’s not the first time the commission and Gates’ Breakthrough Energy organization have worked together on funding sustainable investment. But the scale of this latest partnership dwarfs the €100 million fund the EU established back in 2019 with its venture investment funding arm.
Now the commission has partnered with Breakthrough Energy Catalyst — a financing program within Gates’ organization that aims to accelerate the development and adoption of technologies needed to underpin a low-carbon economy — to mobilize up to 10x more than the earlier fund to build large-scale, commercial demonstration projects for clean technologies.
The overarching goal is of course to lower the costs and accelerate deployment of clean tech in order to deliver significant reductions in CO2 emissions in line with the Paris Agreement.
The bloc is a major emitter of CO2 but has committed to achieving net-zero emissions by 2050, under the European Green Deal.
Gates’ philosophy with his 2015-founded Breakthrough Energy vehicle, meanwhile, is that renewables alone won’t be enough to avert catastrophic climate change — and investments in a range of high risk but potentially high reward technologies is also needed.
But given the lengthy time scales needed for a return on these types of investments, public-private partnerships look like a key piece of the financing puzzle.
Commenting on the partnership announcement in a statement, EU president Ursula von der Leyen, said: “With our European Green Deal, Europe wants to become the first climate-neutral continent by 2050. … Europe has also the great opportunity to become the continent of climate innovation. For this, the European Commission will mobilise massive investments in new and transforming industries over the next decade. This is why I’m glad to join forces with Breakthrough Energy. Our partnership will support EU businesses and innovators to reap the benefits of emission-reducing technologies and create the jobs of tomorrow.”
In another supporting statement, Gates, founder of Breakthrough Energy, added: “Decarbonising the global economy is the greatest opportunity for innovation the world has ever seen. Europe will play a critical role, having demonstrated an early and consistent commitment to climate and longstanding leadership in science, engineering, and technology. Through this partnership, Europe will lay solid ground for a net-zero future in which clean technologies are reliable, available, and affordable for all.”
On the EU side, funding for the partnership is expected to come from the bloc’s flagship R&D fund, Horizon Europe, and also via the low-carbon-focused Innovation Fund within the framework of the InvestEU program.
Breakthrough Energy Catalyst will mobilise equivalent private capital and philanthropic funds to finance selected projects.
The partnership will also be open to national investments by EU Member States through InvestEU or at project level, the commission noted. It added that a call for expressions of interest for potential InvestEU implementing partners is currently open until June 30, 2021.
Renewable energy and clean(er) transport were also key focus areas for the massive €750 billion “Next Generation EU” coronavirus recovery fund put together by the commission last year — which said it would borrow money on the financial markets through the issuance of bonds for post-pandemic recovery — with that money pegged to be channelled through EU programs between 2021 and 2024.
The bloc’s lawmakers have also suggested that digitization and AI technologies — which are other areas it’s pegged for major investment — will play a key supporting role in Europe’s green transition.
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