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Biotech Earth Science

For the First Time, Genetically Modified Trees Have Been Planted in a US Forest (nytimes.com) 79

Genetically modified seedlings from biotechnology company Living Carbon have been planted in a low-lying tract of southern Georgia's pine belt. According to a paper that has yet to be peer reviewed, these trees are engineered to grow 50 percent faster than non-modified ones over five months in the greenhouse. The New York Times reports: The poplars may be the first genetically modified trees planted in the United States outside of a research trial or a commercial fruit orchard. Just as the introduction of the Flavr Savr tomato in 1994 introduced a new industry of genetically modified food crops, the tree planters on Monday hope to transform forestry. Living Carbon, a San Francisco-based biotechnology company that produced the poplars, intends for its trees to be a large-scale solution to climate change. "We've had people tell us it's impossible," Maddie Hall, the company's co-founder and chief executive, said of her dream to deploy genetic engineering on behalf of the climate. But she and her colleagues have also found believers -- enough to invest $36 million in the four-year-old company.

The company's researchers created the greenhouse-tested trees using a bacterium that splices foreign DNA into another organism's genome. But for the trees they planted in Georgia, they turned to an older and cruder technique known as the gene gun method, which essentially blasts foreign genes into the trees' chromosomes. In a field accustomed to glacial progress and heavy regulation, Living Carbon has moved fast and freely. The gene gun-modified poplars avoided a set of federal regulations of genetically modified organisms that can stall biotech projects for years. (Those regulations have since been revised.) By contrast, a team of scientists who genetically engineered a blight-resistant chestnut tree using the same bacterium method employed earlier by Living Carbon have been awaiting a decision since 2020. [...]

In contrast to fast-growing pines, hardwoods that grow in bottomlands like these produce wood so slowly that a landowner might get only one harvest in a lifetime, said [Vince Stanley, a seventh-generation farmer who manages more than 25,000 forested acres in Georgia's pine belt]. He hopes Living Carbon's "elite seedlings" will allow him to grow bottomland trees and make money faster. "We're taking a timber rotation of 50 to 60 years and we're cutting that in half," he said. "It's totally a win-win." [...] The U.S. Forest Service, which plants large numbers of trees every year, has said little about whether it would use engineered trees. To be considered for planting in national forests, which make up nearly a fifth of U.S. forestland, Living Carbon's trees would need to align with existing management plans that typically prioritize forest health and diversity over reducing the amount of atmospheric carbon, said Dana Nelson, a geneticist with the service. "I find it hard to imagine that it would be a good fit on a national forest," Dr. Nelson said. Living Carbon is focusing for now on private land, where it will face fewer hurdles. Later this spring it will plant poplars on abandoned coal mines in Pennsylvania. By next year Ms. Hall and Mr. Mellor hope to be putting millions of trees in the ground.
The report notes that the modified trees are all female, "so they won't produce pollen."

"They're also being planted alongside native trees like sweet gum, tulip trees and bald cypress, to avoid genetically identical stands of trees known as monocultures; non-engineered poplars are being planted as experimental controls."
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For the First Time, Genetically Modified Trees Have Been Planted in a US Forest

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  • by Anonymous Coward

    Let's lock up some carbon in that.

  • Frankentrees!
    • Frankentrees exist. Almond trees are grafted into peach roots. Apple trees get grafted into each other all the time. There has been all kinds of wild breeding going on.
      • by Holi ( 250190 )

        grafting is a bit different from genetic modification.

        • Breeding on the other hand, _is_ genetic modification and we have been using it to produce more robust food sources for millenia

    • by quenda ( 644621 )

      The report notes that the modified trees are all female, "so they won't produce pollen."

      May I be the first to say: "Life finds a way."

      https://www.youtube.com/watch?... [youtube.com]

      • Re:Ermagerd! (Score:5, Interesting)

        by Rei ( 128717 ) on Friday February 17, 2023 @06:40AM (#63300883) Homepage

        Honestly, while I don't know about poplars in particular, sex reversal is not uncommon in many types of nominally dioecious plants.

        Poplar species (for example where I am, black cottonwood, which is the fastest growing tree in Iceland already) also are very prone to having broken branches root; in the wild such branches can be swept away in waterways and root far from the parent trees.

        This just overall sounds like a terrible idea. If these genes contaminate mixed forests that contain wild poplars and give them a competitive advantage, it's going to throw their entire ecosystems off. Could literally lead to extinctions. Couldn't they at least have included a genetic vulnerability as well bound to the genes that increase the growth rate, so that they could be selectively targeted with herbicides?

        If they were going to plant genetically modified poplars somewhere, it really should have been a place like Iceland where poplars aren't native (well... we have one native aspen, the super-rare-here Populus tremula, but it doesn't bloom, only spreading by rootstocks, so there's no concerns of contamination).

        On an unrelated note, what they're doing is really challenging, and I'm surprised they succeeded. Sounds like they're sort of converting C3 plants (Populus tremula x alba) to C4 plants. This would be a really big deal in crops. Basically, RuBisCo - the most common protein on Earth, what fixes carbon from the air - is really bad at its job. Because CO2 is sparse in the atmosphere RuBisCo often accidentally binds O2 instead (photorespiration), and instead of gaining a carbon atom, it has to spend a carbon atom to regenerate the RuBisCo, which is a huge waste of energy on this energy-intensive process. C4 plants (like many grasses) have evolved a trick where they use a much more selective enzyme, PEP carboxylase, to sequester carbon as malate, then move the malate to inner bundle sheath cells, convert it back to CO2, and then in the nearly-pure-CO2 environment, RuBisCo can function without photorespiration. It costs energy to do this, but in warmer and/or drier environments, it's a significant competitive advantage. It's similar to CAM metabolism used in desert plants, where they only make malate during the night and only use it during the day, so they can keep the stomata closed all day and minimize water loss further. But CAM is less efficient because it costs energy to store malate; it's a tradeoff.

  • In much the same way as similarly-named "hype man" Flavor Flav faded into relative obscurity, the Flavr Savr tomato [wikipedia.org] also lacked staying power. It was discontinued in 1997 and the company which produced it was later acquired by Monsanto. Using it as a pioneering example in the field of GMO crops is a bit like that episode of Star Trek Voyager where Tom Paris says he designed a special bulkhead system drawing inspiration from the Titanic.

    Janeway: The Titanic? As I recall, it sank.

    • Using it as a pioneering example in the field of GMO crops is a bit like that episode of Star Trek Voyager where Tom Paris says he designed a special bulkhead system drawing inspiration from the Titanic.

      Janeway: The Titanic? As I recall, it sank.

      Ach, so gloomy. It's a brilliant solution! All you have to do is trans-reverse the ionization in the warp coils and focus the phase emitter. Viola! (a stringed instrument)

      • Doctor Who pulls the same stunt but at least they bald-facedly acknowledged all of the techno-babble is bullshit in one episode where Eccleston's Doctor correctly called it "jiggery pokery".
      • Pshaw, route it to a part of a phaser, I believe it should be routed through the Navigational Deflector HA !

    • by Teckla ( 630646 )

      Janeway: The Titanic? As I recall, it sank.

      Oh, the fools! Why didn't they build it with six thousand and one hulls?

  • ...that the trees does not have flowers...

    We already have honey that can drive you crazy and even kill you (honey from the Rhododendron flowers).

    Could you imagine what a honey from an untested, unknown gene-edited tree can do to health?

    Or should I BELIEVE they took bees (and/or any other pollinators) into account for their safety protocols?

    • Or should I BELIEVE they took bees (and/or any other pollinators) into account for their safety protocols?

      RTFS. The trees are all female, so they will produce no pollen.

      • Or should I BELIEVE they took bees (and/or any other pollinators) into account for their safety protocols?

        RTFS. The trees are all female, so they will produce no pollen.

        Well, as long as they didn't use amphibian DNA as well...

        • I for one welcome our frog-tree overlords.
        • That depends on the sex determining mechanism. In the XY system for example, the X chromosome does not carry the information necessary to produce spermatozoa. So while the males would carry the needed information for both egg and sperm, the females just have eggs.

      • >The trees are all female, so they will produce no pollen.

        Not a poplarologist (or any kind of biologist really), but can't pollen from a closely related species/variety fertilize those flowers? While cross-species fertilization is AFAIK rare, and usually results in infertile hybrids, hybrid speciation [wikipedia.org] is apparently somewhat common in plants.

    • by vyvepe ( 809573 )
      Honey from Rhododendron flowers is not toxic because some strange bee interaction with the flowers but because the flowers (pollen, nectar) is toxic. I'm sure they did not modify the trees to be toxic.
  • Poplars are already fast growing and commonly planted for firewood, with a harvest cycle of less than 20 years, here in Europe.
    • by Gavino ( 560149 )
      They are an invasive species in the alpine areas of Australia clogging up the waterways.
      • They are an invasive species in the alpine areas of Australia

        Good. Then we're even for the Australian blue gum eucalyptus trees which are an invasive species in California.

    • Poplar firewood is shit. Poplar is the softest hardwood there is. It goes up like a match and while it's great for starting a fire, it's gone before it generates any real heat. It just doesn't have the required density that a hard hardwood does for decent heating. And it leaves this big flakey white ash that's a pain in the ass to clean up and takes up a lot of space, so you need to clean out the stove a lot more.

      Oak, man. And hickory. And beech. And anything else that takes a lot longer than 20 year

      • by Holi ( 250190 )

        Poplar is used in the paper industry, mostly for newsprint and toilet paper. I could see where this could come in handy there.

      • by Teun ( 17872 )
        Here in The Netherlands Poplar is used to make our clogs, though but easy to cut.
      • It would be nice if there were some clarification of the term "poplar". Tulip poplars are fast growing and commonly referred to as poplars, but they aren't true poplars. Tulip poplars are actually in the magnolia family.
        • Certainly in the Southeast where this experiment was performed, poplar == Tulip Poplar, or "yellawood" as they're locally called.
  • by La Gris ( 531858 ) <<lea.gris> <at> <noiraude.net>> on Friday February 17, 2023 @04:47AM (#63300783) Homepage

    These trees grow faster:

    They will compete with slower growing trees and eventually replace them; thus becoming an invasive specie.

    As they grow faster, they will use more water and nutrients, drawn more quickly from soil and air, for their growth.

    Faster tree growth means less wood density and greater fire susceptibility.

    ... and what other unforeseen consequences?

    • by bgarcia ( 33222 ) on Friday February 17, 2023 @06:17AM (#63300869) Homepage Journal

      They will compete with slower growing trees and eventually replace them; thus becoming an invasive specie.

      These trees are all female so that they don't release pollen to fertilize other trees.
      These trees are all grown on private land, so they don't compete with trees in natural forests.

      This isn't someone's pet anaconda that gets loose and procreates, or even a fast-growing pest plant like kudzu. These trees still take 30 years to mature. They will be easy to track and control.

      As they grow faster, they will use more water and nutrients, drawn more quickly from soil and air, for their growth.

      Perhaps. But these are on private land that will be set aside specifically for this purpose. These will be grown as "crops" to be harvested and re-planted. This is agriculture rather than reforestation. So they'll be fertilized and watered as necessary.

      Faster tree growth means less wood density and greater fire susceptibility.

      This is complete conjecture. There's no reason to believe that these trees are any more susceptible to fire than natural trees.

      • by noodler ( 724788 )

        These trees are all grown on private land, so they don't compete with trees in natural forests.

        Until they do.

        This isn't someone's pet anaconda that gets loose and procreates, or even a fast-growing pest plant like kudzu.

        Until it is.

        So they'll be fertilized and watered as necessary.

        Until we lose control. And we always do.

        • Until we lose control. And we always do.

          Yeah. I remember when we lost control of corn and it grew wild and became the most common plant in florida. Took forever to pull it out of the everglades. We actually had to introduce pythons in the everglades to get rid of it, and we all know what problems that caused!

      • by Reziac ( 43301 ) *

        Poplars can and do reproduce via stray roots and stray branches (they root very easily). Wouldn't be unusual for a root to come up a hundred feet away and grow into a tree. And female trees will accept windblown pollen from male trees, and voila, a bazillion windborne seeds, all carrying the new genetics. So yes, they can and will overseed and outcompete the next generation of native trees, possibly somewhere well away from the original plot.

        I have an infinite cottonwood (poplar) generator in my garden, bec

    • Yea, I was worried more about what happens after they've replaced all the native trees then inevitably get eradicated by some fungal blight to which the old ones had long since grown a natural immunity.

    • Re: (Score:2, Informative)

      by Anonymous Coward

      Those answers lie no further away than looking at the other two dozen genetically engineered plant species that have been growing out there alongside their native counterparts for the last two decades.

      We know, other than growth density, that those consequences you mention are true.
      I'm not saying you are wrong, only that they are not "unforeseen" in the slightest.
      We have 20+ years of practical experience providing those answers.

  • This is like saying "....up to one million dollars"!

    Pretty sure these are not the first.

    Chestnuts come to mind. for one thing.

  • by noodler ( 724788 ) on Friday February 17, 2023 @06:35AM (#63300879)

    these trees are engineered to grow 50 percent faster than non-modified ones

    And it won't change no ecosystems or nuthing. I swear.

  • The report notes that the modified trees are all female, "so they won't produce pollen."

    Yeah, I've heard this one before. Did someone go around and look up the trees' skirts and check?

  • I'm not sure about these poplars, but poplars grew in large drainage ditches near the water. They were fast-growing junk trees that blew down in winds.

    They grew so fast I always thought they'd be a good candidate for carbon sequestration. I have no idea if it is good for wood building, or just burying, as the type of sequestration.

  • The report notes that the modified trees are all female, "so they won't produce pollen."

    Didn't Jurassic Park teach us anything?

    • At least they tried! far too many times they are just greedy and not careful which can create problems that may not be acknowledged until decades after the harm began. Severe punishments and regulations should have been created in the 90s before anything was let out in the wild. The incompetence, arrogance, and ignorance as usual... is still staggering.

  • The report notes that the modified trees are all female, "so they won't produce pollen."

    "They're also being planted alongside native trees like sweet gum, tulip trees and bald cypress, to avoid genetically identical stands of trees known as monocultures; non-engineered poplars are being planted as experimental controls."

    Are the non-engineered poplars planted around them also all female?

    See also princess trees [wikipedia.org] (paulownia tomentosa, aka princess tree, empress tree, or foxglove-tree), which is the world's fastest growing tree and the best at carbon capture [bloomberg.com] (lighter paywall [archive.org]), without genetic modifications. Poplars grow quickly, but I'd be surprised if they compete with princess trees even given a 150% growth rate over normal poplars; princess trees can grow 10 to 20 feet in their first year alone while hybrid poplars are h

  • Comment removed based on user account deletion
  • It would be great to find a gene that provides resistance to the fungus that pine and spruce beetle carry.

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