I did an AI search on the decline of dust blowing across the Pacific from China and Asia and the decline began in the 1950-1960 time frame, the 1960’s had only a fraction of the dust of the 50’s. References cite the increased growth of Asian grasses due to rising CO2 as being responsible.
So it’s all there in the scientific data, the great dying of the North Pacific Ocean fish pastures began with the industrial boom that followed WW2 spewing massive amounts of CO2 into the air, growing grass in the Asian dustbowls , and turning the North Pacific into a clear blue desert.
“Like turning off a nutrient tap, the slowing dust storms of the late 20th century left entire ocean basins gasping for vital iron.” — Martinez-Garcia, Nature (2011)
More Grass Growing Means Less Dust Blowing And Fish Disappearing
Decade
Dust Days China
%Change
N. Pacific Iron (μM)
Key Events
1950’s
28.2
Baseline
0.12
Peak Salmon/ Cod/Sardine Catches
2020’s
5.7
– 80%
0.04
Multiple fishery closures
Data sources: Zhang 2016 (Atmos. Chem. Phys.), EMEP 2021
Ocean Pasture Productivity and Fish decline 1950-2010
Sources: Boyce et al. (2010), FAO Fisheries Reports (2021), Wong et al. (2020)
Lost in translation
“The ocean’s pastures are starving. While the world focused on overfishing, we failed to notice the dust famine that quietly undermined the entire marine food web.” — Boyd et al., Nature (2007)
“Sardines didn’t vanish because we fished too hard—they vanished because we didn’t notice their pasture was dying beneath them.” — Chavez, Progress in Oceanography (2003)
“Even if emissions halted tomorrow, the ocean’s iron debt would take centuries to repay through natural processes alone.” — Moore et al., Nature Geoscience (2013)
“Managing fisheries without managing their pastures is like raising cattle while ignoring the grasslands.” — Ware & Thomson, Science (2005)
“For less than the cost of one offshore wind farm, we could replenish all the North Pacific’s missing iron—and Bring Back Its Fish.” — George, Pacific Carbon Restoration (2014)
“The geo-engineering experiment has already been run—we removed the iron, and the fish disappeared. Now we must reverse the trial.” — Martin, Nature (2013)
What to do to Bring Back The Fish
There is only one hope for our oceans and our fish, that is replenishing the dust to our oceans which we have ground beneath our industrial heels, doing so will immediately restore the oceans to their historic levels of health and abundance, and bring back the fish and all of ocean life.
New Fisheries and Ocean Pasture Management Policies Are Vital
Fisheries management has traditionally prioritized maximizing allowable catch, often through the concept of Maximum Sustainable Yield (MSY).This approach focuses only to harvest the largest possible quantity of fish without overharvesting the stock, but it has faced significant criticism for neglecting broader ecosystem health and the declining productivity of ocean pastures.
Critique of Maximum Sustainable Yield (MSY):
MSY has been a cornerstone of fisheries management, focusing on the highest catch that can be taken from a fish stock over an indefinite period.However, this method has been challenged for its oversimplification and potential to lead to overfishing.Sidney Holt, a notable fisheries scientist, referred to MSY as “the worst idea in fisheries management” due to its potential to severely depress fish populations if pursued aggressively. ResearchGate
Furthermore, MSY often fails to account for the complex interactions within marine ecosystems, such as especially habitat dependencies and predator-prey relationships.This “blinders on” focus results in management decisions that overlook the broader ecological consequences of fishing practices.
Shifting Baselines and Goalposts:
The concept of “shifting baselines” describes how each generation perceives the current state of the environment as the norm, often unaware of historical abundances.In fisheries, this has led to the gradual and automatic acceptance of declining fish populations as normal, with management allowable catch targets adjusted over time to accommodate reduced stocks.This incremental moving of the goalposts masks the true extent of ecological degradation and prohibits restoration of marine ecosystems to their former levels of health and productivity.
Ocean Pasture Based Fisheries Management:
In response to the limitations of MSY, there has been a growing advocacy for Ocean pasture based (Ecosystem-Based Fisheries Management – EBFM).EBFM is an approach that considers the entire ecosystem, including environmental variables, habitat conditions, and species interactions, rather than focusing solely on target fish stocks.The goal is to maintain ecosystems in a healthy, productive, and resilient condition so they can provide the services humans want and need.
Implementing Ocean Pasture restoration and management will immediately address the decline in ocean productivity and carrying capacity by integrating as a managment priority habitat health, biodiversity, and the impacts of environmental changes.This approach contrasts with traditional methods that prioritize maximum catch without adequately accounting for ecosystem sustainability.
Comparisons to Terrestrial Management:
Fisheries and ocean pasture management has proceeded in a fashing unlike and indeed in opposition to traditional terrestrial pasture management, which aims to optimize the carrying capacity of the land to sustain livestock populations. Traditional fisheries management has focused exclusively on extraction rates as opposed to the health and productivity of ocean pasture habitats.This disparity highlights the need for a paradigm shift in how marine resources are managed, emphasizing the restoration and maintenance of ocean pastures to support sustainable fish populations.
Conclusion:
The historical emphasis on maximum allowable catch in fisheries management has contributed to the massive decline of fish populations and the degradation of marine ecosystems.Adopting ecosystem-based approaches that consider the health of ocean pastures and their carrying capacity is crucial for the sustainable management of global fisheries.This shift requires moving beyond the narrow focus of maximum allowable catch to embrace strategies that ensure the long-term productivity and resilience of marine environments.
Reviving Alaska’s Ocean Pastures: A Bold Step Toward Marine Restoration
Ocean Pasture Restoration (OPR) Alaska is spearheading a pioneering initiative aimed at rejuvenating marine ecosystems in the Gulf of Alaska. Set to commence in 2025, this three-year pilot project focuses on enhancing phytoplankton production—the foundational element of oceanic food webs.
The strategy involves the careful introduction of iron-rich mineral dust into specific ocean regions. This method is designed to stimulate phytoplankton growth, thereby supporting the broader marine food chain. The concept draws inspiration from the work of oceanographer John Martin, who emphasized the critical role of iron in phytoplankton proliferation.
Rob Lindsey, a seasoned commercial fisherman from Kodiak, and Ted Crookston, a member of OPR’s Fisheries Advisory Board, are leading advocates for the project. They express concerns about the sustainability of commercial fishing, particularly for species like king salmon, if proactive measures aren’t taken. Their vision includes establishing Kodiak as the central hub for operations, potentially extending efforts down to the Canadian border and into the Bering Sea.
OPR Alaska has previously experimented with this approach, notably in 2012, observing anecdotal increases in salmon returns in subsequent years. However, the organization acknowledges the need for more comprehensive data and is seeking support from state legislators to ensure transparency and engagement.
Documentary Film Reveals The Plight Of Salmon That Go To Sea In Vast Numbers As Baby Salmon But Do Not Survive To Swim Home
Atlantic Salmon are in far worse danger than their Pacific Salmon Kin
Every tens of millions of Atlantic Salmon smolts leave rivers to begin their life at sea. Tragically almost all of those baby salmon simply starve to death, never to return to spawn.
Ocean pasture restoration can save restore the Atlantic Salmon to historic numbers in health and abundance.
Alaska’s top resource managers are briefed on the hope and promise of ocean pasture restoration that will tackle the CRISIS of both fisheries collapse and climate change.
Alaska State Senators hope to see OPR Alaska Bring Back The Fish, again!
Our company was delighted to have the opportunity to testify to the Alaska Senators on Monday. Founder Russ George reported on our business plan to begin a 3-year commercial-scale demonstration project on ocean pasture restoration (OPR) in the Gulf of Alaska. We’re confident this R&D phase of our business will deliver definitive data to prove that ocean pasture restoration is safe, sustainable both ecologically and financially, and is the World’s best hope to restore both fisheries and climate.
President Biden orders fisheries and climate restoration. Click to read
President Biden has acted to show that the restoration of fisheries and climate is amongst his, and the nations’, highest priorities. One of his first actions in office was to sign an executive order on January 27th commanding federal and state government agencies ‘to deliver working solutions to save fisheries and restore the climate within 60 days.’
OPR Alaska is seeking to engage in a partnership with the State of Alaska to offer our private sector for-profit OPR ‘shovel-ready’ business plan to President Biden’s ‘executive order’. We will deliver the results commanded, better, faster, and cheaper including protecting the jobs of tens of thousands of Alaskans in the fishing industry while generating hundreds of millions in additional revenues in the state.
This video of the Alaska Senate Resource Committee has an introduction by Ted Crookston, an Alaskan commercial fisherman from Kenai – his family is 4 generations of Alaska fishermen.
Alaska has the most important ocean pastures
Alaska holds the distinction of representing 61% of the entire USA fishing industry. Nearly 70,000 Alaskans depend on fish for their livelihoods. Their work delivers $5.6 billion dollars into the state economy each year. But Alaska’s fish have been in dire straits, especially the iconic salmon, which have been mysteriously disappearing in the Gulf of Alaska.
Ocean Pasture Restoration isn’t new, there is a 30-year history of research and development of OPR by the international ocean science and climate change community. Hundreds of millions of dollars of public and private funds have been invested over the decades in many OPR experiments performed by consortia of ocean science groups around the world.
The late John Martin, father of OPR, NASA’s memorial page – Click to read
As a result of these decades of directed R&D, OPR technology and methodology is recognized as a proven ‘nature-based’ means to reverse the 70-year collapse of ocean pasture ecosystems. That collapse, which is the most immediate and dire part of global climate change, has contributed to the disappearance of salmon in the North Pacific, as well as countless other fish populations and ocean life around the world.
It just works!
OPR works by replenishing missing vital mineral dust that climate change has prevented from reaching the Alaskan ocean pastures. The immediate result of our replenishment – those pastures will be seen to be restored to historic green health and abundance.
Proof of OPR’s spectacular results is clearly revealed in Alaska Fish & Game data shown to the Senators. The data, published by the state last year, showed the largest catch of salmon in Alaskan history coincided precisely with the OPR large-scale project performed in 2012. The record-breaking catches continued for several years. The value of OPR in Bringing Back The Fish to the state economy was well over $1 billion dollars!
Testifying to the fact that OPR is safe, sustainable, and good business is seen in the fact that it brings back hundreds of millions of additional fish. But this is not some sort of technological and artificial geoengineering, it follows closely lessons from Nature.
When vital dust arrives in the ocean in the right form, to the right place, at the right time – the ocean plankton pastures bloom and are sustained for months, feeding all of ocean life. Baby salmon when they swim out to sea, instead of mostly starving, are treated to a feast. They grow and grow and before too long, they swim back to their rivers by the millions healthy and strong.
The following simple graphic shows how OPR Alaska performs ocean pasture restoration. It just works!
Many Miracles
There are many miracles of eco-restoration delivered by OPR as this nature-based technology in the largest ecosystem – the 72% of our blue planet that is our oceans.
Brings Back The Fish and all of ocean life, plankton, seabirds, seals, whales
Reduces Ocean Acidification by repurposing deadly CO2 into new life
Scrubs And Removes deadly mercury from surface oceans
Restores Plankton Blooms as a source of clouds, rains, and global cooling
World’s Best Hope to mitigate the lion’s share of anthropogenic CO2
Questions & Answers
The Senator’s asked many questions about OPR during their hearing on the topic. They seemed convinced that getting on with OPR in the Gulf of Alaska is vitally important.
Senator Kiehle stated, “There are questions of whether OPR will really deliver the results presented” and “he was eager to see what the data (from the 3-yr proposed project) would reveal.”
Chair of the committee, Senator Revak, stated “OPR sounded almost too good to be true”, but he followed up by asking in a hopeful tone, “Is there a chance OPR Alaska could begin its work as soon as this summer?”
OPR founder Russ George replied to Chairman Revak, “We hope so, but timing is tight”. He further noted, “If we were to get out to sea this summer, Alaskan’s can expect to catch hundreds of millions of additional salmon next year.”
Will OPR work for other fish, how about for Atlantic Salmon on the East coast of the USA.
A great paper from Germany on Aleutian Volcano Kasatochi Iron Replenishment of Gulf of Alaska
Brings Back The Fish by replenishing vital mineral micro-nutrients to Gulf of Alaska ocean pastures.
Abstract: The Kasatochi volcanic eruption that occurred in the central Aleutian Islands in Alaska, USA, in August 2008 is thought to have induced a massive diatom bloom in the iron-limited waters of the Gulf of Alaska, which potentially affected the oceanic food web by increasing the abundance of zooplankton and sockeye salmon Oncorhynchus nerka in the northeast Pacific Ocean.
Our study suggests that the amount of iron released from Kasatochi ash (an increase of 2.0 to 2.8 nM Fe) was indeed sufficient to cause the observed phytoplankton bloom in the northeastern Pacific Gyre, while the impact of macronutrient release was minimal. We further evaluated the multiple, interdependent processes in the oceanic food web related to the diatom bloom, involving the ocean survival of juvenile salmon that entered the northeast Pacific Ocean in the summer of 2008.
Alaska scientists report just 15% of Chum survived their 5 years at sea to return home to spawn
Chum salmon have been experiencing a steady collapse for many years
But a few years ago, in 2017, there was a miraculous recovery of these iconic Alaska salmon.
What’s going on with salmon? Are they doomed, or might they be saved?
Read on for an incredible story of hope.
The end of the 2020 season count of Chum Salmon in the upper Yukon River is just now completed, and the results are giving scientists a terrible sinking feeling. But it wasn’t just the chum heading to Canada that were in such a desperate situation.
Less than 3% of the usual catch of Chum Salmon were caught in the lower Yukon River this year, the worst in history.
Commercial fishermen in the lower Yukon harvested just 13,968 chums in the summer fishery, which was 97% less than the five-year average, which saw 449,000 fish caught every year.
Managers had predicted a rather average return of about 1.9 million summer chum. That would have allowed a harvestable surplus of about 1.1 million fish, according to ADFG. So the total river catch is more like 1% of what was expected.
The latest estimates aren’t just bad, they’re “absolutely dismal,” says Stephanie Quinn-Davidson, director of the Yukon River Inter-Tribal Fish Commission in Alaska.
Dozens of baby Chum Salmon are in this little girl’s plastic bag and on their way downriver to the sea.
Every year, scientists count fish as they swim up the Yukon River past Eagle, Alaska, near the Canadian border, as they are nearing their end-of-life spawning journey. Five years ago, they had been swept out to sea in the spring floods as tiny minnows.
Those minnows/smolts, numbering in the hundreds of millions, made their way south to the vast ocean pastures of the Gulf of Alaska where they should have spent the last five years being nourished, thriving, and surviving on pastures filled with plankton, their principal food.
Yukon Chum Salmon run is the lowest in history. The 2017 peak is a result of those baby salmon being treated to a feast when they arrived on their ocean pasture in 2012.
This year, the upper Yukon River total chum count is a mere 23,828 fish, so none were allowed to be caught. This is far below, less than 25%, of the minimum number of fish that scientists and management groups want to see. The ‘spawning escapement goal,’ the minimum number of returning fish needed to sustain the salmon requires at least healthy 100,000 adults.
This year, both the commercial and native fisheries in both Alaska and Canada have been closed. Many families along the Yukon River will go hungry this winter.
In the last 10 years, chum salmon have been faring better than the King, or Chinook, salmon that they share the river with. But not this year. The tiny return of Chum is said to come as a surprise to many scientists who were not expecting this year’s chum salmon numbers to be at such a catastrophic low. The same disaster scenario is true for the Chinook Salmon, again numbers so low no fishing was allowed.
The Eagle sonar counting station at Eagle, Alaska, offers an annual set of data for scientists to review. The station, 1200 miles from the ocean, has been counting salmon for 50 years. This year’s numbers for chum are ‘dismal’ says one researcher (Alaska Department of Fish and Game). Chum populations are known to fluctuate and even have big crashes, but this year’s numbers in the Yukon are the lowest in all of history. With so few spawning adults, future years’ returns will become even more dismal.
But what about that big run of Yukon Chum Salmon shown in the charted data for 2017?
With this year being the lowest number of Chum Salmon in history and just a few years ago, 2017, showing the largest number in history what could be the reason. Many fisheries managers and scientists are eager to put forth wild ideas that transfer blame to some unknowable reason or some knowable villains responsible.
At the top of this churlish list of ‘the usual suspects’ lies the fish hatcheries on both sides of the Pacific. Fish bureaucrats looking to shift the blame suggest the hatcheries are responsible for sending too many hatchery grown fish out to sea where they compete with the ‘pure natural’ stocks. But hatchery releases are nothing new, they have been taking place for decades, and there are no patterns of exceptional numbers to support them as responsible for the salmon decline. It is plain to see something much more fundamental is the blame.
Plankton blooms as seen from space by NASA may appear as art but they also show the way to reduce CO2 and global warming. Click to read more
The second ‘usual suspect’ is an ill-defined but ever-present ‘bogey man’ called climate change. It is true that the oceans are warming, including the North Pacific, but the warming is being seen over the course of many decades not a few years. Even if the decline of Chum might be correlated to such warming, the warming hypothesis does not offer a causative mechanism.
There are many other species of salmon and marine fish that share the Gulf of Alaska’s ocean pastures. All are in decline in both numbers and individual fish size. Big salmon like Chum and Kings have been shrinking by as much as 1% per year, that loss of size can only be attributed to less food.
It is clear that the problem is the carrying capacity of these vital ocean fish pastures. Fisheries management of salmon has never to this day considered the ocean life of salmon as important. They see their only mandate is to manage the ‘catch’ of salmon as they return to the rivers where they spawn. I know this well as for many years I enjoyed the biologist life being able to study returning salmon on government pay with a fishing rod in hand
Chum salmon return in the largest numbers in all of history. Click to read more
Interestingly we can look for part of the answer far to the south, to the lesson of the Chum salmon of the Fraser River that enters the Pacific Ocean near Vancouver, British Columbia.
In 2016 the return of Chum Salmon to the British Columbia coastal rivers was the largest in history. It was declared ‘a salmon miracle’. But at the same time the other side of the Pacific, Japan’s chum salmon failed to survive as their dying ocean pasture produced the smallest catch in history, a ‘salmon tragedy’.
“2016 Chum Salmon return is estimated to be two million, the largest return on record,”said Lara Sloan of Fisheries and Oceans Canada in November of 2016.
“Catches in Johnstone Strait were some of the strongest on record. There have also been very strong returns of chum to the Nanaimo River.” Sloan said the spawning target was met early, with a total catch estimated at 150,000.
Fishermen also reported an astonishing and unexpected bonanza of salmon. Gillnetter Shaun Strobel fishes the west coast of Vancouver Island, and down the Johnstone Strait to Nanaimo “The fall net, or chum catch, is usually good”, he said. “But nothing like this.” The fisheries experts were all totally off on this one.
At first, the Chum salmon return was expected to be so low there was supposed to be a lottery to select a very few fishermen who would be allowed to fish commercially, but returns were so strong fishing was opened up in a free for all for everyone with no limits.
“Everybody was catching fish from the top of the straights up towards Alert Bay all the way down to Campbell River. We were catching fish everywhere,” said Vancouver Island salmon fisherman Shaun Strobel, who described catches of fish weighing down boats and threatening to break or sink nets. “We were all doing the best ever.”
“Although Fraser River sockeye numbers have hit a record low, Chum returning to the Fraser are doing extremely well,” wrote one fishing company’s general manager, Chris Kantowicz.
Kantowicz said the largest catch ever recorded in a Johnstone Strait chum salmon fishery took place Oct. 17 when one fleet pulled in 800,000 fish in a single day.
While fishermen are delighted the Federal Fisheries experts are saying ‘they have no idea’why the unexpected bonanza of Chum Salmon showed up so utterly against all of their usually reliable projections.
Hmmm… What might have happened with regard to the Chum Salmon last year.
click to enlarge
Let’s examine their 4-5 year life cycle and see if there are any clues. Chum salmon, like all salmon, lay their eggs in the gravel in freshwater rivers and streams in the fall of the year. The adults then die and their carcasses provide vital nutrients in the river that will grow river insects to feed their hatchlings. The eggs incubate over the winter and hatch in the early spring. The tiny Chum alevins emerge from their gravel incubators and are flushed/swim immediately to the ocean. In the Yukon that is a journey of nearly 2000 miles.
Chum are big salmon and they lay vast numbers of eggs, the eggs are big, this means there are vast numbers of healthy baby Chum hatching each year. No one knows precisely the numbers of young Chum, smolts, that go to sea each spring but surely the number is in the hundreds of millions.
Once in the ocean, the young Chum salmon spend as little time in the near-shore coastal waters as possible as that is a region full of all manner of hungry sea-life that love nothing more than baby salmon. The young salmon head out into the great North Pacific, the Gulf of Alaska promptly. There they are safer than in coastal waters as there are far fewer predators. But there, they are also at the mercy of the health of their ocean pasture. Chum are primarily plankton feeders, their survival depends on the condition of their ocean pasture. If the pasture blooms in abundance then the survival rate of the baby Chum salmon is very high and they grow big and strong over the next 4-5-6 years.
Across 10,000 miles of North Pacific ocean pasture declarations from Japan and the USA are reporting a cataclysmic collapse of Pacific Salmon. The fish are tragically starving at sea as the plankton pastures have turned into clear blue lifeless deserts. Click to read more
Mostly in recent decades the Chum salmon like so many salmon have provided a story of doom and gloom as they have simply not been returning from their ocean pastures. The ocean pastures of the North Pacific have been in a multi-decade history of worsening collapse. Without a healthy ocean pasture the health and abundance of the ‘livestock’, aka salmon, the pasture can sustain have plummeted.
Our CO2 is Killing Ocean Pastures, but perhaps not in the way you might think.
Ocean pastures are in cataclysmic decline in the North Pacific and indeed in every ocean of the world. The reason is not about the usual suspects, those big bad villains the overfishing folks or climate change. The reason is just a little bit of bad behaviour of each of us, but there are a lot of us – 7.4 billion and counting. Our CO2 emissions are killing ocean pastures in a very easy to understand manner.
CO2 is today high and rising in the global atmosphere and that’s indisputable. Humanity has in all of our yesterday’s of the fossil fuel age already spewed more than a trillion tonnes of Yesterday’s CO2 into the air. We’re busy now working on spewing another trillion tonnes of our CO2 plant food into the air that’s Tomorrow’s CO2. CO2 as we all know feeds plant life which is powered by the sun, and photosynthesis helps plants grow and exhale back oxygen into the air. How great is that you say, we all need to breathe oxygen.
But here’s the problem for the oceans. This is a blue planet as 72% is oceans, of the remaining 28% it’s not all land as about half that or 14% is ice and rock where nothing grows. Of the part where plants grow more than half is actually grass, not trees. So what is happening is that as our CO2 is helping plants on land grow, and let’s focus on the grass how can that harm the oceans.
Rain and Dust in the wind are the Yin and Yang for pastures on land and at sea. Click to read more
Where plants living in mineral soil they live or die depending on whether nature delivers vital rain. We all know that when the rain doesn’t fall the grass dies off, but when the rain does fall the grass grows green and bushier. Well CO2 gives plants the ability to survive with far less rain! Hence our present world’s high CO2 has resulted in a vast amount of extra grass growing, its called ‘global greening.’
OK Plants on land need rain but CO2 lets them grow better with less rain. Stick with me.
Plants in the ocean, you know the 72% of this planet that is blue, actually, it is healthy when it is murky blue-green. Those plants live in water and what they need most is something that blows to them as the rain does for plants on pastures on land. Ocean pastures need dust in the wind. They have all the water they could ever use but they have no minerals.
Here’s the crux of the CO2 problem that grows more grass on land.
MORE GRASS GROWING MEANS LESS DUST BLOWING
Increasing grass, aka ground cover, is starving the ocean pastures to death due to loss of dust.
Back to our story of the twin miracles of Chum Salmon of 2016 and 2017
Did something happen in the North Pacific Chum Salmon pastures that helped the baby Chum salmon that came back last year as adults? No mystery there!
Before and After! Looking astern off the transom of my research ship before we began our dusting to restore the ocean to health the ocean was a blue desert. After dusting the same view revealed a beautiful emerald-green see that had become full of life. (No Photoshop, raw camera) – click to read more
In the summer of 2012 just when the gazillions of baby Chum Salmon went out to sea to begin their 4-5 years of grazing and growing on their ocean pasture they found their pasture had miraculously returned to historic levels of health and productivity. This was no accident it was the result of the greatest ocean pasture restoration project in the history of ocean and fisheries science. Proof of this is that the work of a scant dozen earnest shipmates, my village crew, and our work to replenish vital mineral dust to the salmon pasture returned the largest salmon runs in history in perfect correlation with that work being ‘good shepherds’ for the ocean pasture.
Do the math for the Chum Salmon, just count from 2012-2013, that’s their 1st. year; 2013-2014, that’s 2 years, 2014-2015, that’s 3 years, and 2015-2016, that’s 4 years and the magic number for the southern Chum Salmon who are known for just that life-cycle! Chum Salmon miracle mystery solved, it was an intended miracle and it just worked.
Feeling skeptical? The miracle of the 2016 and 2017 Chum salmon are not the only salmon miracles!
In 2013, the year following my Gulf of Alaska ocean pasture restoration work the Pink Salmon of Alaska made up an even greater salmon miracle. Pink Salmon live for only two years. So let’s do the life cycle math. The Pink salmon that were eggs in the gravel of rivers and streams along the North American Pacific coast and hatched into baby salmon in the spring of 2012, like their cousins the Chum Salmon were swept and swam out to their vast ocean pasture that spring.
There instead of finding their ocean pasture was a desolate blue desert unable to sustain them they found it had been made into a restored Garden of Eden. Instead of mostly dying they grew and grew and before too long they swam back to their home rivers and streams healthy and strong. That swim home took place in the year 2013, remember Pinks live just 2 years so count em up the year 2012 is year one for the pinks, 2013 is their spawning year.
In Alaska, in 2013 the fisheries experts were confident within 5%-10% certainty that the catch of Pink Salmon would be between 50-52 million of the silver beauties. The experts were dumbfounded when the fishers caught not 50 million Pinks but 226 million of the silver beauties more than 4 times the number expected, the largest catch of salmon in all of Alaskan history. All up and down the Pacific coast reports came in of very stream no matter how small in Pink Salmon territory being absolutely jammed with spawning Pink Salmon. Surely many hundreds of millions of additional Pinks.
The arrow points to our ocean pasture restoration work in 2012. Note the repeating historic Pink Salmon returns in Alaska. Nearly a billion additional, unexpected fish caught, delivering hundreds of millions of economic stimulus into the Alaska economy.
Our 2012 ocean pasture restoration project worked so well it brought back record salmon returns To Alaska the very next year and many years thereafter.
What’s next?
Restore ocean fish pastures everywhere and bring back billions of fish, salmon, cod, tuna, mackerel, and more… enough fish to help end world hunger! And save the planet at a cost of mere millions neither billions nor trillions as the sales folk of climate change would have the world spend.
