Tag: Black Chokeberry

Fairfax Student Reveals Native Shrub Carbon Storage Champions

Washington (GGM) Analysis | May 14, 2021 by author & climate journalist Noreen Wise

The planet will keep revolving around the sun, no matter how destructive and irresponsible humans are. But we humans won’t. Humans are mammals. Mammals rely on our habitat to survive. And mammals eventually become extinct when our habitat disappears. Eighty mammals have gone extinct in the past five centuries.

Humans have escalated the destruction of our habitat for several centuries now. Leveling billions of trees. Replacing nature with concrete. We began waking up at the turn of the millennium. Al Gore traveled the globe with his megaphone, beating the drum, challenging us with his Inconvenient Truth. But did we rush into action, planting billions of trees and shrubs to restore our habitat?

No, sadly, we did not.

Join our free Mighty Network today and be kept informed about how you can boost carbon biosequestration in your own yard and local community ASAP, which will hasten the drawdown of carbon in our atmosphere. 

And now we have to face the fallout. The best time to plant a tree is 20 years ago. The second best time is today. A jarring reminder that haunts us as we finally begin racing to save our habitat by infusing as much nature into our local communities as possible, implementing an agenda to quickly catch up to a level we would already be at if we’d begun the campaign back at the turn of the millennium as Al Gore suggested.

The interesting phenomenon that nature graciously reminds us of, is that it can’t be rushed. We can’t force a tree to grow dramatically faster than it is predisposed to grow. With this reality staring us in the face, it’s imperative that we turn to shrubs to help with carbon storage, providing oxygen, filtering pollutants, stabilizing soil, increasing property values, and providing shade all while the young trees continue their upward climb.

At the end of October 2020, Gallant Gold Media’s Hill Report ran a story about a W. T. Woodson High School ninth grader in Fairfax, Virginia, Julia Victor, and her science experiment for the Regeneron International Science and Engineering Fair . Julia was determined to find out if shrubs can hold as much carbon as trees. Today we are very eager to share Julia’s findings.

Julia’s original hypothesis: I am hypothesizing that the holly tree will grow to be the largest and will absorb the most carbon. I also think that shrubs might not be far behind. I am hoping to be able to come to the conclusion that shrubs and smaller plants are just as important to reversing climate change as large trees. 

The steps that Julia initially planned to implement to test her hypothesis:

  1. Remove the soil and weigh each plant. Record each plant’s bare root weight (without soil).
  2. If plants are not the same weight, trim each plant until they are approximately equal.
  3. Plant each plant in its new container with 1 gallon of soil each. Label each container with the plant species.
  4. Water each plant with 1 cup of water each. 
  5. Set up each plant’s light to a 12-hour timer to simulate the sun.
  6. Water each plant regularly with its recommended amount of water.
  7. After 25 days, remove all the soil from the bare roots from each plant and weigh.

The NoVa native species that Julia used in her experiment:

  • American Holly 
  • Strawberry bush
  • Spicebush
  • Arrowwood Viburnum
  • Black Chokeberry

I sent Julia a list of follow up questions, but its best to let her explain her findings in her own words.

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First question: Julia, were you able to follow her exact procedure? She replied:

I followed my original procedure except for step two. Some of the plants had very different starting weights so I would have to trim the plants quite a bit. If I had trimmed them all to be the same weight, some plants would have very little leaf coverage which would affect their ability to absorb carbon. That step was originally included to make conclusions easier for me, but I didn’t want to alter my results even though it would make it easier. 

What was the most challenging part of the experiment?

The most challenging part of the process was weighing the plants at the beginning and end of the experiment. I took three measurements for each plant, which led to 150 measurements. The process of unplanting, bare-rooting, weighing, and replanting took all day, but I was excited to start my experiment and to see my results. 

What were your findings?

The species all reacted differently to the same conditions. Some plants showed a surprising amount of change over only 24 days, but others lost leaves and lost weight. Even within species, each plant had variance. I started the experiment expecting that each plant would be different and be able to process carbon differently. Using a t-test, I determined that on average, plants that started out larger (30+ grams) grew substantially more than the smaller plants. This is consistent with research I did before starting my experiment. The larger plants were in a different stage of life and can sequester more carbon. 

Which species stored the most carbon?

On average the American Holly sequestered the most carbon, but the individual plant that gained the most weight was a Black Chokeberry. Not all plants gained weight due to leaves falling and certain plants entering their winter stage, but on average every species gained weight. Some species gained less weight because they had more intense winter stages or because the species processes carbon slower. By looking at the data, I can say that the shrubs are important to carbon sequestration. The trees (American Hollies) did absorb more carbon than the shrubs, but Black Chokeberry was very close behind. 

Will you be planting any nature this spring?

This spring, I will be planting all 25 shrubs that were in my experiment at my school. I originally planned to plant them in my yard, but many of them will grow to be fairly large and my yard does not have enough space. My science teacher was happy to plant them at Woodson.

Julia’s work and her findings are significant. I’m cheering this exciting outcome and personally look forward to planting black chokeberry seedlings in the near future. I can’t wait to promote planting Northern Virginia native trees and shrubs as well.

Thank you, Julia Victor! Northern Virginia, and I’m sure the entire state of Virginia, appreciates your hard work for our betterment.

Our atmospheric carbon level leaped 5 full points this spring 2021, from 415 PPM to 420 PPM, sending shock waves through the world of science. We only have 7 years to restore our habitat and boost soil health enough to lower global warming by drawing drawdown enough carbon. All our attention is now focusing on shrubs, particularly woody shrubs, which have become an absolutely critical part in the rush to restore our habitat so we can maximize carbon drawdown and safely store, and lock in, the carbon in our soil. Julia has made it clear that not all shrubs are the same. So, let’s choose wisely.

© Copyright 2018 – 2021. ALL Rights Reserved.


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Fairfax Ninth Grader Places Second in Well-Timed Science Experiment

Washington (GGM) Analysis | February 20, 2021 by author and journalist Noreen Wise

Gallant Gold Media is very excited to report that Julia Victor, a ninth grader at W.T. Woodson High in Fairfax, Va, placed second in her unique and timely science experiment, which is part of the build up to the annual Regeneron International Science and Engineering Fair. We’ve been following Julia’s progress since October 2020 as she’s made her way through this intricate labyrinth of competing in a science fair during a global pandemic with schools closed and students distance learning. Julia was determined to find out which NoVA natives store the most carbon, and whether shrubs can stores as much carbon as trees, so she decided to conduct her own science experiment to discover the answer. We were impressed with Julia’s original idea that ties closely with the international greenup movement, that of planting lots of trees and nature to restore our habitat. Julia has taken it to a new level, though. She challenges us to be strategic about what we plant as we all strive to find more ways to store more carbon to reduce global warming.

Meanwhile, President Biden, on behalf of the United States of America, officially reentered the 2015 Paris Agreement yesterday, Friday February 19, 2021. The ultimate goal of the Paris Agreement is to become carbon neutral. Carbon neutrality will be accomplished through the global framework established within the Paris Agreement — an international treaty on climate change signed by more than 196 countries. The Paris Agreement outlines a combination of aggressively cutting carbon emissions on one side of the coin, while simultaneously boosting carbon sequestration on the other. Substantially increasing carbon sequestration will be accomplished most notably by a significant increase in soil health as well as the restoration of our habitat, particularly trees and shrubs… and as Julia has proven with her science experiment, the right native trees and shrubs make a difference.

What’s the heart of the matter? The hard truth is that in order for us to hit the targets outlined for the US in the Paris Agreement, we each have to do our own little bit, by lowering our individual and household carbon footprint, as well as by storing more carbon in our yards (ie, planting more trees, shrubs, flowers and ground cover, and improving soil health through the diversification of the species we plant, as well as composting and biochar). To make this simple, the easiest way to process our individual contribution in reaching the US target, is by living a sustainable lifestyle and planting smart.

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The Paris Agreement measures the contribution each country is making in its effort to curb global warming. It checks to see if countries are doing their “fair share.” The expectation is that large countries like the United States, one of the largest contributors to global warming, will reach the highest level of effort, that of “Role Model.” Currently, the United States is ranked at the very bottom, Critically Insufficient. The following are the Paris Agreement levels of contribution:

  • Role Model
  • 1.5° Paris Agreement Compatible
  • 2° Compatible
  • Insufficient
  • Highly Insufficient
  • Critically Insufficient

The term “role model” is what immediately comes to mind when I think of Julia and her science experiment. Julia’s findings highlight that quality matters, especially when available land to plant is constrained. Although, if possible, a high quantity of high quality plants, sure would help the US make up for lost time. (Click here to read the details of Julia’s experiment.)

I asked Julia if she would be so kind to walk us through the science fair process. In her own words:

“The virtual science fair included only students from my school as a preliminary level. It was all grades, so most of the participants were older than me. There were 7 categories ranging from micro-biology to computer science. I was in the environmental science category and placed second. Environmental science was the largest category with around 25 students in it. The top three projects in each category move on to the regional fair. The school-wide science fair was set up so each student could present their pre-recorded video to three judges and then answer questions. As it started, it became clear that coordinating around110 students and all the judges would be difficult. The links for the judging rooms were broken and it was too much for the coordinators to fix. Eventually, they gave up on the judging rooms, and the judges reviewed the projects and videos by themselves. Overall, the setbacks didn’t affect the quality of the science fair too greatly.” 

Ninth grader, Julia Victor’s 25 seedlings planted and tested to find out which NoVa native species stores the most carbon.

Now that you’ve placed second, Julia, what’s the next round all about?

“The next round will be very similar to the school-wide science fair, except it will be better coordinated. It uses an online program made for science fairs and programs like this. It has the same process as my school’s fair. It has a video presentation stage and then a synchronous time for questions. The fair will include all of Fairfax County Public Schools so it will cover much of Northern Virginia. I’m not sure the exact number of students participating, but I know there will be hundreds of them. Due to the virtual setting, the fair is not hosted by a specific school, but by the school district. There are many different types of awards at the regional fair. Depending on the award, students may move to the state-wide science fair, or even straight to the international science fair (Regeneron International Science and Engineering Fair).”

And the winners are…

We have our work cut up for us that’s for sure. Biden committed to being at net-zero no later than 2050. But many of our allies have been working at a brisk pace these last 4 years while we’ve been slumped on the sidelines. Our allies have submitted new pledges that will hopefully bring out the best in the US as we reach higher and rush faster. Julia’s experiment gives us a new lens to use. Let’s be smarter about what we put in the ground, so we can build that all important ladder to pull ourselves out of this hole we jumped into back in 2017 when we exited the Paris Agreement.

  • EU has now pledged to cut emissions from the 1990 level by 55 percent by 2030. Insufficient.
  • UK is striving for a 68 percent reduction from the 1990 level by 2030. Insufficient.
  • Canada has pledged to come in at 30 percent below 2005 level by 2030. Insufficient.
  • Costa Rica and Bhutan are both ranked highest on the main list. Compatible.

Congratulations, Julia! Best of luck in the next round.

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© Copyright 2018 – 2021. ALL Rights Reserved.

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Fairfax Ninth Grader Reveals NoVa Native Carbon Storage Champions

Washington (GGM) Analysis | December 18, 2020 by Noreen Wise

The planet will keep revolving around the sun, no matter how destructive and irresponsible humans are. But we humans won’t. Humans are mammals. Mammals rely on our habitat to survive. And mammals eventually become extinct when our habitat disappears. Eighty mammals have gone extinct in the past five centuries.

Humans have escalated the destruction of our habitat for several centuries now. Leveling billions of trees. Replacing nature with concrete. We began waking up at the turn of the millennium. Al Gore traveled the globe with his megaphone, beating the drum, challenging us with his Inconvenient Truth. But did we rush into action, planting billions of trees and shrubs to restore our habitat?

No, sadly, we did not.

And now we have to face the fallout. The best time to plant a tree is 20 years ago. The second best time is today. A jarring reminder that haunts us as we finally begin racing to save our habitat by infusing as much nature into our local communities as possible, implementing an agenda to quickly catch up to a level we would already be at if we’d begun the campaign back at the turn of the millennium as Al Gore suggested.

The interesting phenomenon that nature graciously reminds us of, is that it can’t be rushed. We can’t force a tree to grow dramatically faster than it is predisposed to grow. With this reality staring us in the face, it’s imperative that we turn to shrubs to help with carbon storage, providing oxygen, filtering pollutants, stabilizing soil, increasing property values, and providing shade all while the young trees continue their upward climb.

At the end of October, Gallant Gold Media’s Hill Report ran a story about a W. T. Woodson High School ninth grader in Fairfax, Virginia, Julia Victor, and her science experiment for the Regeneron International Science and Engineering Fair . Julia was determined to find out if shrubs can hold as much carbon as trees. Today we are very eager to share Julia’s findings.

Julia’s original hypothesis: I am hypothesizing that the holly tree will grow to be the largest and will absorb the most carbon. I also think that shrubs might not be far behind. I am hoping to be able to come to the conclusion that shrubs and smaller plants are just as important to reversing climate change as large trees. 

The steps that Julia initially planned to implement to test her hypothesis:

  1. Remove the soil and weigh each plant. Record each plant’s bare root weight (without soil).
  2. If plants are not the same weight, trim each plant until they are approximately equal.
  3. Plant each plant in its new container with 1 gallon of soil each. Label each container with the plant species.
  4. Water each plant with 1 cup of water each. 
  5. Set up each plant’s light to a 12-hour timer to simulate the sun.
  6. Water each plant regularly with its recommended amount of water.
  7. After 25 days, remove all the soil from the bare roots from each plant and weigh.

The NoVa native species that Julia used in her experiment:

  • American Holly 
  • Strawberry bush
  • Spicebush
  • Arrowwood Viburnum
  • Black Chokeberry

I sent Julia a list of follow up questions, but its best to let her explain her findings in her own words.

First question: Julia, were you able to follow her exact procedure? She replied:

I followed my original procedure except for step two. Some of the plants had very different starting weights so I would have to trim the plants quite a bit. If I had trimmed them all to be the same weight, some plants would have very little leaf coverage which would affect their ability to absorb carbon. That step was originally included to make conclusions easier for me, but I didn’t want to alter my results even though it would make it easier. 

What was the most challenging part of the experiment?

The most challenging part of the process was weighing the plants at the beginning and end of the experiment. I took three measurements for each plant, which led to 150 measurements. The process of unplanting, bare-rooting, weighing, and replanting took all day, but I was excited to start my experiment and to see my results. 

What were your findings?

The species all reacted differently to the same conditions. Some plants showed a surprising amount of change over only 24 days, but others lost leaves and lost weight. Even within species, each plant had variance. I started the experiment expecting that each plant would be different and be able to process carbon differently. Using a t-test, I determined that on average, plants that started out larger (30+ grams) grew substantially more than the smaller plants. This is consistent with research I did before starting my experiment. The larger plants were in a different stage of life and can sequester more carbon. 

Which species stored the most carbon?

On average the American Holly sequestered the most carbon, but the individual plant that gained the most weight was a Black Chokeberry. Not all plants gained weight due to leaves falling and certain plants entering their winter stage, but on average every species gained weight. Some species gained less weight because they had more intense winter stages or because the species processes carbon slower. By looking at the data, I can say that the shrubs are important to carbon sequestration. The trees (American Hollies) did absorb more carbon than the shrubs, but Black Chokeberry was very close behind. 

Will you be planting any nature this spring?

This spring, I will be planting all 25 shrubs that were in my experiment at my school. I originally planned to plant them in my yard, but many of them will grow to be fairly large and my yard does not have enough space. My science teacher was happy to plant them at Woodson.


Julia’s work and her findings are significant. I’m cheering this exciting outcome and personally look forward to planting black chokeberry this spring. I can’t wait to promote planting NoVa native trees and shrubs as well. Gallant Gold Media will be sending Julia’s work to Al Gore to see what he has to say about a young Fairfax, Virginia ninth grader taking action to address an Inconvenient Truth. Stay tuned for more information.

Thank you, Julia Victor! Northern Virginia, and I’m sure the entire state of Virginia, appreciates your hard work for our betterment.

© Copyright 2018 – 2020. ALL Rights Reserved.

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How Much Carbon Do Bushes Absorb? This Ninth Grader Plans To Find Out

Washington (GGM) Analysis | October 30, 2020 by Noreen Wise

Do bushes sequester carbon too? Is planting more shrubs as important as planting more trees in helping to lower atmospheric carbon levels and reverse global warming?

One student at W. T. Woodson High School in Fairfax, Virginia is determined to find out. Ninth grader Julia Victor has accepted the challenge to conduct her own science experiment for the upcoming Regeneron International Science and Engineering Fair and is busy mapping out the procedure she will follow to test how much carbon five species of Northern Virginia natives can absorb in comparison to one another. 

The Regeneron ISEF has a wide range of categories, 21 in all, that 1800 participating students are selecting from. As a nature lover, Earth and Environmental Sciences was Julia’s top choice, which she quickly narrowed down to climate change. Julia asked herself questions about which NoVa natives might absorb the most carbon. She then spent time researching, and eventually arrived at her hypothesis: “I am hypothesizing that the holly tree will grow to be the largest and will absorb the most carbon. I also think that shrubs might not be far behind. I am hoping to be able to come to the conclusion that shrubs and smaller plants are just as important to reversing climate change as large trees.”

Julia will be implementing the following steps to test her hypothesis. All the plants will be kept in open containers.

  1. Remove the soil and weigh each plant. Record each plant’s bare root weight (without soil).
  2. If plants are not the same weight, trim each plant until they are approximately equal.
  3. Plant each plant in its new container with 1 gallon of soil each. Label each container with the plant species.
  4. Water each plant with 1 cup of water each. 
  5. Set up each plant’s light to a 12-hour timer to simulate the sun.
  6. Water each plant regularly with its recommended amount of water.
  7. After 25 days, remove all the soil from the bare roots from each plant and weigh.

An important science experiment like this one is challenging enough without there being an extra layer of difficulty. But, Julia isn’t daunted by the complications during the fall season. Julia explained, that there are far less species available for her to choose from this late in the year. Many NoVa natives are nearly dormant, so there’s far less photosynthesis, which means very little, if any, carbon absorption. But Julia persevered and unearthed several standouts she can rely on:

  • American Holly 
  • Strawberry bush
  • Spicebush
  • Arrowwood Viburnum
  • Black Chokeberry

We’ll be checking back with Julia in December to learn about the conclusions she drew once she completes her experiment, weighs each plant, and is able to identify the winning species that sequestered the most carbon. Julia will be managing a total of 25 small plants for her project.

This is a lot of extra work during a very challenging global pandemic. Julia began her freshman year with virtual learning, and appears to be very excited about having something she feels passionately about, nature and science, to keep her mind preoccupied in the midst of a health crisis. “This is my first time participating in the Regeneron ISEF and I’m excited to see everyone’s projects, especially during covid-19.”

I asked Julia how she keeps from feeling intimidated by such a challenging, high level competition. Her response was one that we could all apply to our own lives.

“These days, it’s very easy to get intimidated by projects and big assignments. I found that if I don’t think about it as an assignment, but rather as something I enjoy, then it becomes much easier to do get motivated by my curiosity.”

Nature is an exciting and therapeutic ally to help combat our daily challenges during covid. A major destresser, thanks to its beauty and healing scents, as well as the chemicals it emits that we humans respond to by releasing our own positive chemicals—serotonin for example. Nature is very responsive to human interaction, both positively and negatively. Humans and nature are connected through a symbiotic relationship. What we give is what we get. We see this with climate change of course, but it’s equally as powerful on the positive side of the coin. Nature nurtures. It comforts. Heals. Inspires. Supports. Motivates. Hanging out with nature makes us physically and emotionally stronger. It’s time to recognize this fact and act on it. Planting millions of trees and shrubs and flowers and all types of nature is an investment that pays us back exponentially. So, let’s get planting! If it’s too cold where you are right now, you can plant a seedling indoors in a container and leave inside until spring. 

© Copyright 2018 – 2020. ALL Rights Reserved.

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