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How Many Gallons to Grow a Smelt?

And we're worried that it takes one gallon to grow an almond?

Apr 02, 2015

Millions of acre feet flow through the Delta every year, tens of millions really. Some of it because we don't have the capacity to pump it and some of it because we refuse to pump it. The increase in the amount we let flow through the Delta and the reduction in the amount we used to get for farming and people has been going on for over 20 years.

How has this all worked out for the Delta Smelt? You can see by the title of the article below, "Prepare for the Extinction of the Delta Smelt." So, all that water literally down the drain. How much water have we dedicated per smelt? No one really knows. But, millions of acre feet every year and just a couple of weeks ago "
the state conducted its annual spring Kodiak trawl survey, which is designed to capture delta smelt as they aggregate to spawn. They caught only six smelt — four females and two males."

There are 325,000 gallons in an acre foot. Let's say we dedicated a lousy million acre feet this year which would be a vast underestimation.

What's a million x 325,000? Pretty big number.

And we're worried that it takes one gallon to grow an almond?

We're also putting hundreds of thousands of acre feet down the San Joaquin River in desperate hopes that by trucking 50,000 salmon up and down the river we will get 50 to live. What's 500,000 acre feet divided by 50?

There is no accountability in the environmental movement for the use of this water, yet they have the chutzpah to criticize farmers for the water they use. At least a farmer produces a crop of clean, affordable food and thousands of jobs!!

Prepare for extinction of delta smelt


California Water Blog

 

By Peter Moyle


I saw my first delta smelt in 1972, during my first fall as an assistant professor at UC Davis. I was on a California Department of Fish and Wildlife trawl survey to learn about the fishes of the Sacramento-San Joaquin Delta. The survey then targeted young striped bass, but the trawl towed behind the boat captured large numbers of the native delta smelt.


I remember a single haul with a couple hundred of these iridescent finger-length fish being dumped into a container on deck. I decided to study smelt biology because these fishes were so abundant and yet so poorly studied. I would have no trouble collecting enough of them for my research.

Lee Miller, the biologist in charge of the surveys, started preserving the smelt catches for me. Each year for three years a pickup loaded with quart bottles of delta and longfin smelt would arrive at my laboratory. For a diet study alone, my technician and I dissected 1,055 delta smelt.

Today, few delta smelt remain in the wild. Researchers get their samples from special labs where the smelt are bred in captivity.

The state’s 2014 fall mid-water trawl survey showed the lowest number of delta smelt in 47 years of recordkeeping (See chart below). Last week, the state conducted its annual spring Kodiak trawl survey, which is designed to capture delta smelt as they aggregate to spawn. They caught only six smelt — four females and two males [1] [2].

The dismal catch prompted me to advise the state’s Delta Stewardship Council on Monday that delta smelt appear to approaching the point of no return, with extinction in the wild possible in the next year or two.

I
say “in the wild” because there are two captive populations of smelt. The U.S. Fish and Wildlife Service manages a backup population at its fish hatchery below Shasta Dam, and UC Davis produces smelt for experimental and conservation purposes at a lab in the Delta, just south of Stockton. Both facilities raise hundreds of smelt at a time through their entire life cycle. Each fish is tagged and its genetics recorded for precise mating, to maximize genetic diversity. Each year a few wild smelt are brought in to mix their genes with those of the captive brood stock.

We don’t know what the minimum population size has to be for successful reproduction to occur in the wild. But it must be hard for males and females to even find one another today, and even harder to find partners that are in the right stage of maturity for spawning. Most of these fish have a one-year life cycle, apparently dying after spawning. A few live two years. This means a bunch of them have to spawn successfully every year to maintain a viable population.

We don’t know with absolute certainty that wild delta smelt will disappear within the next couple of years. But the likelihood is high enough that we should be prepared for it. We need to start answering questions like these:

  • How do we know when the delta smelt is truly extinct in the wild? Who makes the decision? It is worth noting that the last thicktail chub was caught in the Delta’s Steamboat Slough in 1957 but not recognized as extinct for at least 30 years — and without an official declaration.
  • Should the last of the delta smelt be captured so their genes can be added to the captive population, as was done for the California condor?
  • Can captive populations be used to restore the delta smelt in the wild? This is not easy to answer. Obviously, this would not work as long as conditions that caused the smelt to decline remain. These conditions include competition and predation by alien species, altered food supply, multiple water contaminants and water exports upstream and within the Delta. The extended drought presumably has worsened these conditions and pushed the smelt over the edge of the extinction cliff, or at least close to it [3].
  • How does management of the Delta change if delta smelt are extinct in the wild? It is hard to do anything water-related in the Delta without considering its impacts on delta smelt, particularly operation of state pumping facilities and wastewater treatment plants. For example, in the past year federal fish officials placed no restrictions on pumping from the South Delta because the smelt were mostly not there.

Presumably, protecting delta smelt has benefited other native fish because it is the species most sensitive to changes in the Delta’s waterways. Other listed fish species that affect and are affected by Delta management include winter- and spring-run Chinook salmon, longfin smelt, green sturgeon and Central Valley steelhead.

We need to prevent more fish from achieving the cliff-hanger status of delta smelt. We need to extend proactive management from species already listed to those headed in that direction, including hitch, blackfish, splittail, tule perch and white sturgeon. This requires learning more about their requirements and managing parts of ecosystem specifically for their benefit, including tidal marshes.

I hope we still have enough smelt and enough time to keep the species from altogether disappearing from the Delta. But, as my geologist colleague Jeffrey Mount is fond of saying, “Hope is not a strategy.” We need to be planning for delta smelt extinction and, perhaps, its resurrection.

Peter Moyle, a professor of fish biology, is associate director of the Center for Watershed Sciences at UC Davis.

[1] Numbers were much higher in 2002 – 2014 (e.g., Bennett 2005). Intensive Kodiak trawl surveys near the state and federal water projects (Jersey Point) in 2014 caught so few fish that the U.S. Fish and Wildlife Service placed no restrictions on Delta pumping that year. In 2013, this survey captured 329 smelt in 737 tows of the trawl, with 78 percent of the tows catching no fish. This may seem like a high number but the high-intensity sampling spanned a two-month period when smelt populations should be at their peak. Presumably few, if any, of the highly sensitive fish survived the experience.

[2] The numbers of delta smelt are only a fraction of what they were in 1993 when both the state and federal governments listed the species as “threatened” with extinction.. The designation occurred because its numbers were a small fraction of those in the early 1980s when the population decline began..

[3] At the very least, reintroduction would have to wait until we had some wet years with lots of inflow from the rivers. But if we wait too long for reintroduction, the smelt may not be capable of living on their own in the wild. Having multiple generations in captivity tends to alter behavior and general ‘fitness’ of fish. The problems hatchery salmon have surviving in the wild are a reflection of this lack of natural ion. 

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