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#nativeplantspecies — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #nativeplantspecies, aggregated by home.social.

  1. #GreenportNY - 2026 Spring #NativePlant Sale

    - Saturday, May 16, 2026, 9am - 1pm
    - Sunday, May 17, 2026, 9am - 1pm

    #RoyLathamNatureCenter at Inlet Pond County Park
    65275 County Rte. 48
    Greenport, NY, 11944 United States

    "Over Sixty species of plants native to the Northeastern United States and locally grown by Glover Perennials—many of which are drought tolerant and deer resistant—will be showcased outdoors at the Roy Latham Nature Center at Inlet Pond County Park. A list of plants available will be posted here a week before the sale.

    Based at the Roy Latham Nature Center, the organization models environmentally responsible landscaping practices, including the replacement of #InvasiveSpecies with native plants, #WaterWise #gardening, and #HabitatCreation.

    Proceeds from NFAS’s spring and fall plant sales directly fund ongoing #restoration projects, including initiatives to plant native plants and trees throughout Inlet Pond County Park."

    FMI:
    northforkaudubon.org/events/20

    #SolarPunkSunday #Audubon #PlantSale #Fundraiser #DroughtTolerantPlants #ClimateChange #NativePlantSpecies

  2. #GreenportNY - 2026 Spring #NativePlant Sale

    - Saturday, May 16, 2026, 9am - 1pm
    - Sunday, May 17, 2026, 9am - 1pm

    #RoyLathamNatureCenter at Inlet Pond County Park
    65275 County Rte. 48
    Greenport, NY, 11944 United States

    "Over Sixty species of plants native to the Northeastern United States and locally grown by Glover Perennials—many of which are drought tolerant and deer resistant—will be showcased outdoors at the Roy Latham Nature Center at Inlet Pond County Park. A list of plants available will be posted here a week before the sale.

    Based at the Roy Latham Nature Center, the organization models environmentally responsible landscaping practices, including the replacement of #InvasiveSpecies with native plants, #WaterWise #gardening, and #HabitatCreation.

    Proceeds from NFAS’s spring and fall plant sales directly fund ongoing #restoration projects, including initiatives to plant native plants and trees throughout Inlet Pond County Park."

    FMI:
    northforkaudubon.org/events/20

    #SolarPunkSunday #Audubon #PlantSale #Fundraiser #DroughtTolerantPlants #ClimateChange #NativePlantSpecies

  3. #GreenportNY - 2026 Spring #NativePlant Sale

    - Saturday, May 16, 2026, 9am - 1pm
    - Sunday, May 17, 2026, 9am - 1pm

    #RoyLathamNatureCenter at Inlet Pond County Park
    65275 County Rte. 48
    Greenport, NY, 11944 United States

    "Over Sixty species of plants native to the Northeastern United States and locally grown by Glover Perennials—many of which are drought tolerant and deer resistant—will be showcased outdoors at the Roy Latham Nature Center at Inlet Pond County Park. A list of plants available will be posted here a week before the sale.

    Based at the Roy Latham Nature Center, the organization models environmentally responsible landscaping practices, including the replacement of #InvasiveSpecies with native plants, #WaterWise #gardening, and #HabitatCreation.

    Proceeds from NFAS’s spring and fall plant sales directly fund ongoing #restoration projects, including initiatives to plant native plants and trees throughout Inlet Pond County Park."

    FMI:
    northforkaudubon.org/events/20

    #SolarPunkSunday #Audubon #PlantSale #Fundraiser #DroughtTolerantPlants #ClimateChange #NativePlantSpecies

  4. #GreenportNY - 2026 Spring #NativePlant Sale

    - Saturday, May 16, 2026, 9am - 1pm
    - Sunday, May 17, 2026, 9am - 1pm

    #RoyLathamNatureCenter at Inlet Pond County Park
    65275 County Rte. 48
    Greenport, NY, 11944 United States

    "Over Sixty species of plants native to the Northeastern United States and locally grown by Glover Perennials—many of which are drought tolerant and deer resistant—will be showcased outdoors at the Roy Latham Nature Center at Inlet Pond County Park. A list of plants available will be posted here a week before the sale.

    Based at the Roy Latham Nature Center, the organization models environmentally responsible landscaping practices, including the replacement of #InvasiveSpecies with native plants, #WaterWise #gardening, and #HabitatCreation.

    Proceeds from NFAS’s spring and fall plant sales directly fund ongoing #restoration projects, including initiatives to plant native plants and trees throughout Inlet Pond County Park."

    FMI:
    northforkaudubon.org/events/20

    #SolarPunkSunday #Audubon #PlantSale #Fundraiser #DroughtTolerantPlants #ClimateChange #NativePlantSpecies

  5. #GreenportNY - 2026 Spring #NativePlant Sale

    - Saturday, May 16, 2026, 9am - 1pm
    - Sunday, May 17, 2026, 9am - 1pm

    #RoyLathamNatureCenter at Inlet Pond County Park
    65275 County Rte. 48
    Greenport, NY, 11944 United States

    "Over Sixty species of plants native to the Northeastern United States and locally grown by Glover Perennials—many of which are drought tolerant and deer resistant—will be showcased outdoors at the Roy Latham Nature Center at Inlet Pond County Park. A list of plants available will be posted here a week before the sale.

    Based at the Roy Latham Nature Center, the organization models environmentally responsible landscaping practices, including the replacement of #InvasiveSpecies with native plants, #WaterWise #gardening, and #HabitatCreation.

    Proceeds from NFAS’s spring and fall plant sales directly fund ongoing #restoration projects, including initiatives to plant native plants and trees throughout Inlet Pond County Park."

    FMI:
    northforkaudubon.org/events/20

    #SolarPunkSunday #Audubon #PlantSale #Fundraiser #DroughtTolerantPlants #ClimateChange #NativePlantSpecies

  6. Virtual Event - #NewEngland - Which #NativePlants Help #Wildlife? The Science Behind Informed Plant Selection

    Thu Mar 12, 2026 6:00 PM - 7:30 PM EDT

    "You’re ready to plant more native species in your garden to support wildlife. As you start to plan, you might have a few questions. Which plant species make the biggest difference? Does it matter if a plant is a cultivar? How important is local ecotype? Which plant traits attract which #pollinator?

    In this talk, Desirée L. Narango, Ph.D., from the #Vermont Center for #Ecostudies, will share research that evaluates how different native plant species and characteristics influence interactions with pollinators and songbirds. Drawing from her research and that of other experts in the field, she will explore what we know (and still don’t know) about common questions in #EcologicalGardening. The talk will also highlight ways you can contribute data through community science and help improve the information available for wildlife-friendly planting decisions.

    This event is co-hosted by #WildSeedProject and #MOFGA. The webinar will be recorded, and a recording will be shared with registrants within a few days of the event taking place.

    Registration info: This event’s sliding scale registration is designed to keep the class as accessible as possible while also covering MOFGA’s and Wild Seed Project's costs. Recommended price for non-members is $15; recommended price for members is $10.

    Scholarship funds are available to community members in order to increase program accessibility, and participants in MOFGA’s Journeyperson program are welcome to register at no-cost. You’re welcome to use the fund by checking “Scholarship/JP” at checkout. For any questions about scholarship funds, please email [email protected]."

    To register:
    tickettailor.com/events/testor

    #SolarPunkSunday #GardeningForPollinators #GardeningForWildlife #NativePlantSpecies #NativePlantWorkshops

  7. Virtual Event - #NewEngland - Which #NativePlants Help #Wildlife? The Science Behind Informed Plant Selection

    Thu Mar 12, 2026 6:00 PM - 7:30 PM EDT

    "You’re ready to plant more native species in your garden to support wildlife. As you start to plan, you might have a few questions. Which plant species make the biggest difference? Does it matter if a plant is a cultivar? How important is local ecotype? Which plant traits attract which #pollinator?

    In this talk, Desirée L. Narango, Ph.D., from the #Vermont Center for #Ecostudies, will share research that evaluates how different native plant species and characteristics influence interactions with pollinators and songbirds. Drawing from her research and that of other experts in the field, she will explore what we know (and still don’t know) about common questions in #EcologicalGardening. The talk will also highlight ways you can contribute data through community science and help improve the information available for wildlife-friendly planting decisions.

    This event is co-hosted by #WildSeedProject and #MOFGA. The webinar will be recorded, and a recording will be shared with registrants within a few days of the event taking place.

    Registration info: This event’s sliding scale registration is designed to keep the class as accessible as possible while also covering MOFGA’s and Wild Seed Project's costs. Recommended price for non-members is $15; recommended price for members is $10.

    Scholarship funds are available to community members in order to increase program accessibility, and participants in MOFGA’s Journeyperson program are welcome to register at no-cost. You’re welcome to use the fund by checking “Scholarship/JP” at checkout. For any questions about scholarship funds, please email [email protected]."

    To register:
    tickettailor.com/events/testor

    #SolarPunkSunday #GardeningForPollinators #GardeningForWildlife #NativePlantSpecies #NativePlantWorkshops

  8. Virtual Event - #NewEngland - Which #NativePlants Help #Wildlife? The Science Behind Informed Plant Selection

    Thu Mar 12, 2026 6:00 PM - 7:30 PM EDT

    "You’re ready to plant more native species in your garden to support wildlife. As you start to plan, you might have a few questions. Which plant species make the biggest difference? Does it matter if a plant is a cultivar? How important is local ecotype? Which plant traits attract which #pollinator?

    In this talk, Desirée L. Narango, Ph.D., from the #Vermont Center for #Ecostudies, will share research that evaluates how different native plant species and characteristics influence interactions with pollinators and songbirds. Drawing from her research and that of other experts in the field, she will explore what we know (and still don’t know) about common questions in #EcologicalGardening. The talk will also highlight ways you can contribute data through community science and help improve the information available for wildlife-friendly planting decisions.

    This event is co-hosted by #WildSeedProject and #MOFGA. The webinar will be recorded, and a recording will be shared with registrants within a few days of the event taking place.

    Registration info: This event’s sliding scale registration is designed to keep the class as accessible as possible while also covering MOFGA’s and Wild Seed Project's costs. Recommended price for non-members is $15; recommended price for members is $10.

    Scholarship funds are available to community members in order to increase program accessibility, and participants in MOFGA’s Journeyperson program are welcome to register at no-cost. You’re welcome to use the fund by checking “Scholarship/JP” at checkout. For any questions about scholarship funds, please email [email protected]."

    To register:
    tickettailor.com/events/testor

    #SolarPunkSunday #GardeningForPollinators #GardeningForWildlife #NativePlantSpecies #NativePlantWorkshops

  9. Virtual Event - #NewEngland - Which #NativePlants Help #Wildlife? The Science Behind Informed Plant Selection

    Thu Mar 12, 2026 6:00 PM - 7:30 PM EDT

    "You’re ready to plant more native species in your garden to support wildlife. As you start to plan, you might have a few questions. Which plant species make the biggest difference? Does it matter if a plant is a cultivar? How important is local ecotype? Which plant traits attract which #pollinator?

    In this talk, Desirée L. Narango, Ph.D., from the #Vermont Center for #Ecostudies, will share research that evaluates how different native plant species and characteristics influence interactions with pollinators and songbirds. Drawing from her research and that of other experts in the field, she will explore what we know (and still don’t know) about common questions in #EcologicalGardening. The talk will also highlight ways you can contribute data through community science and help improve the information available for wildlife-friendly planting decisions.

    This event is co-hosted by #WildSeedProject and #MOFGA. The webinar will be recorded, and a recording will be shared with registrants within a few days of the event taking place.

    Registration info: This event’s sliding scale registration is designed to keep the class as accessible as possible while also covering MOFGA’s and Wild Seed Project's costs. Recommended price for non-members is $15; recommended price for members is $10.

    Scholarship funds are available to community members in order to increase program accessibility, and participants in MOFGA’s Journeyperson program are welcome to register at no-cost. You’re welcome to use the fund by checking “Scholarship/JP” at checkout. For any questions about scholarship funds, please email [email protected]."

    To register:
    tickettailor.com/events/testor

    #SolarPunkSunday #GardeningForPollinators #GardeningForWildlife #NativePlantSpecies #NativePlantWorkshops

  10. Virtual Event - #NewEngland - Which #NativePlants Help #Wildlife? The Science Behind Informed Plant Selection

    Thu Mar 12, 2026 6:00 PM - 7:30 PM EDT

    "You’re ready to plant more native species in your garden to support wildlife. As you start to plan, you might have a few questions. Which plant species make the biggest difference? Does it matter if a plant is a cultivar? How important is local ecotype? Which plant traits attract which #pollinator?

    In this talk, Desirée L. Narango, Ph.D., from the #Vermont Center for #Ecostudies, will share research that evaluates how different native plant species and characteristics influence interactions with pollinators and songbirds. Drawing from her research and that of other experts in the field, she will explore what we know (and still don’t know) about common questions in #EcologicalGardening. The talk will also highlight ways you can contribute data through community science and help improve the information available for wildlife-friendly planting decisions.

    This event is co-hosted by #WildSeedProject and #MOFGA. The webinar will be recorded, and a recording will be shared with registrants within a few days of the event taking place.

    Registration info: This event’s sliding scale registration is designed to keep the class as accessible as possible while also covering MOFGA’s and Wild Seed Project's costs. Recommended price for non-members is $15; recommended price for members is $10.

    Scholarship funds are available to community members in order to increase program accessibility, and participants in MOFGA’s Journeyperson program are welcome to register at no-cost. You’re welcome to use the fund by checking “Scholarship/JP” at checkout. For any questions about scholarship funds, please email [email protected]."

    To register:
    tickettailor.com/events/testor

    #SolarPunkSunday #GardeningForPollinators #GardeningForWildlife #NativePlantSpecies #NativePlantWorkshops

  11. This is potentially a game-changer when it comes to dealing with #Knotweed (which just laughs at #Glyphosate)!

    #MeshTech: A New Strategy for Managing Knotweed

    February 24, 2026

    "Knotweed (#Reynoutria spp.) is a severely invasive plant originating from Eastern Asia. Introduced to the East Coast in the late 1800s as an ornamental, knotweed has since become ubiquitous across North America, reaching over 40 US states and 8 Canadian provinces. Knotweed has proven extremely detrimental to a wide variety of ecosystems in which it has established. Forming tall, dense thickets, knotweed shades out native plants, preventing them from growing. Additionally, knotweed is #allelopathic, meaning it releases organic compounds into the soil that inhibits the growth of native plant species.

    Knotweed also increases erosion along streams and riverbanks. By shading out native groundcover species and reducing the diverse root reinforcement provided by native species in riparian zones, riverbanks lose considerably more soil when infested with stands of knotweed (Hammer 2019, Matte et al. 2021). This erosion can increase turbidity of waterways, potentially affecting fish and other aquatic species (Henley et al. 2000). The reduction of native plants in riparian zones paired with winter dieback of knotweed stems also leaves riverbanks extremely vulnerable to winter and early spring flooding. This degradation of the riparian area creates a feedback loop in which floods carry knotweed propagules downstream, where they can colonize and increase erosion in new areas (Colleran et al. 2020).

    Historically, management of knotweed has been extremely time-and-resource intensive. Large populations require years of consistent treatment, often combining mechanical and chemical approaches to be effective. This commitment to diligent, multi-year mechanical treatment can be discouraging and can lead many to abandon treatment plans before completion. However, a new knotweed management technique could reduce labor inputs.

    Developed by Dr. Eric Donnelly, the MeshTech management technique has produced promising results at managing the growth and spread of knotweed while dramatically reducing labor inputs. This method involves cutting knotweed stems down to the soil level and laying -inch galvanized steel hardware fencing over the cut stems. When knotweed resprouts, it grows through the openings in the fencing. As stems mature and thicken, the metal fencing will begin to cut into the stems.

    The knotweed will continue to grow through the fencing, effectively girdling itself at its base. This method aims to impact knotweed's nutrient pathways while also damaging the structural integrity of the plant. Alone, this method cannot eradicate knotweed populations. However, the MeshTech method can potentially reduce the health and vigor of knotweed, thus reducing the amount of cutting required in a growing season and the rate of spread in an area.

    At the #PleasantHillPreserve in #ScarboroughME, the #ScarboroughLandTrust (#SLT) has begun implementing the MeshTech method to manage a portion of their knotweed infestation. An effort led by SLTs #Stewardship Director Sami Wolf and Nathan Hjort, owner of Absolutely Complete Property Services, initial results indicate that the hardware fencing is proving successful. The knotweed forced to grow through the hardware fencing at Pleasant Hill Preserve showed clear signs of strain. Stems demonstrated significantly stunted growth and had even begun flowering early, an indication that a plant is under stress. While knotweed struggled to grow through the -inch holes, #NativeFlora had begun to sprout up through the hardware fencing. Other knotweed management practices, such as #tarping or mowing, often discourage the growth of native species in a management area. Over time, the presence of native flora could provide an extra level of #BioticResistance that could help slow the growth of knotweed and help kickstart #NativeRevegetation efforts. Eventually, supplemental plantings of native woody species can take place by cutting openings in the fence to allow for these larger species to grow. The fence can also be easily staked down, preventing knotweed or moving water from moving it out of place.

    It is important to note that knotweed is a resilient plant and there is no single management action alone that will completely eliminate a population. The most effective knotweed management strategies use creative combinations of multiple approaches. Knotweed is a rhizomatous species, meaning it has an extensive, underground nutrient storage system made up of horizontal rhizomes that store nutrients. Draining this underground nutrient storage is the key to effectively managing an infestation. Consistent cutting of knotweed forces the plant to exhaust its below ground resources. By combining a cutting regimen with the MeshTech method, land managers could potentially see a significant reduction in their management timeline.

    The effectiveness of this method provides promising implications for the future of knotweed management in Maine. Paired with consistent management, the MeshTech method could provide Maine with another tool to mitigate the spread of knotweed and reduce our reliance on chemical treatments."

    Source:
    maine.gov/dacf/about/news/news

    #SolarPunkSunday #NaturalSolutions #NoHerbicides #HerbicideAlternatives #JapaneseKnotweed #LandTrusts #Rewilding #NativePlantSpecies #RestoringNativePlantSpecies #InvasiveSpecies #InvasiveSpeciesWeek
    #MaineDepartmentOfAgricultureConservationAndForestry

  12. This is potentially a game-changer when it comes to dealing with #Knotweed (which just laughs at #Glyphosate)!

    #MeshTech: A New Strategy for Managing Knotweed

    February 24, 2026

    "Knotweed (#Reynoutria spp.) is a severely invasive plant originating from Eastern Asia. Introduced to the East Coast in the late 1800s as an ornamental, knotweed has since become ubiquitous across North America, reaching over 40 US states and 8 Canadian provinces. Knotweed has proven extremely detrimental to a wide variety of ecosystems in which it has established. Forming tall, dense thickets, knotweed shades out native plants, preventing them from growing. Additionally, knotweed is #allelopathic, meaning it releases organic compounds into the soil that inhibits the growth of native plant species.

    Knotweed also increases erosion along streams and riverbanks. By shading out native groundcover species and reducing the diverse root reinforcement provided by native species in riparian zones, riverbanks lose considerably more soil when infested with stands of knotweed (Hammer 2019, Matte et al. 2021). This erosion can increase turbidity of waterways, potentially affecting fish and other aquatic species (Henley et al. 2000). The reduction of native plants in riparian zones paired with winter dieback of knotweed stems also leaves riverbanks extremely vulnerable to winter and early spring flooding. This degradation of the riparian area creates a feedback loop in which floods carry knotweed propagules downstream, where they can colonize and increase erosion in new areas (Colleran et al. 2020).

    Historically, management of knotweed has been extremely time-and-resource intensive. Large populations require years of consistent treatment, often combining mechanical and chemical approaches to be effective. This commitment to diligent, multi-year mechanical treatment can be discouraging and can lead many to abandon treatment plans before completion. However, a new knotweed management technique could reduce labor inputs.

    Developed by Dr. Eric Donnelly, the MeshTech management technique has produced promising results at managing the growth and spread of knotweed while dramatically reducing labor inputs. This method involves cutting knotweed stems down to the soil level and laying -inch galvanized steel hardware fencing over the cut stems. When knotweed resprouts, it grows through the openings in the fencing. As stems mature and thicken, the metal fencing will begin to cut into the stems.

    The knotweed will continue to grow through the fencing, effectively girdling itself at its base. This method aims to impact knotweed's nutrient pathways while also damaging the structural integrity of the plant. Alone, this method cannot eradicate knotweed populations. However, the MeshTech method can potentially reduce the health and vigor of knotweed, thus reducing the amount of cutting required in a growing season and the rate of spread in an area.

    At the #PleasantHillPreserve in #ScarboroughME, the #ScarboroughLandTrust (#SLT) has begun implementing the MeshTech method to manage a portion of their knotweed infestation. An effort led by SLTs #Stewardship Director Sami Wolf and Nathan Hjort, owner of Absolutely Complete Property Services, initial results indicate that the hardware fencing is proving successful. The knotweed forced to grow through the hardware fencing at Pleasant Hill Preserve showed clear signs of strain. Stems demonstrated significantly stunted growth and had even begun flowering early, an indication that a plant is under stress. While knotweed struggled to grow through the -inch holes, #NativeFlora had begun to sprout up through the hardware fencing. Other knotweed management practices, such as #tarping or mowing, often discourage the growth of native species in a management area. Over time, the presence of native flora could provide an extra level of #BioticResistance that could help slow the growth of knotweed and help kickstart #NativeRevegetation efforts. Eventually, supplemental plantings of native woody species can take place by cutting openings in the fence to allow for these larger species to grow. The fence can also be easily staked down, preventing knotweed or moving water from moving it out of place.

    It is important to note that knotweed is a resilient plant and there is no single management action alone that will completely eliminate a population. The most effective knotweed management strategies use creative combinations of multiple approaches. Knotweed is a rhizomatous species, meaning it has an extensive, underground nutrient storage system made up of horizontal rhizomes that store nutrients. Draining this underground nutrient storage is the key to effectively managing an infestation. Consistent cutting of knotweed forces the plant to exhaust its below ground resources. By combining a cutting regimen with the MeshTech method, land managers could potentially see a significant reduction in their management timeline.

    The effectiveness of this method provides promising implications for the future of knotweed management in Maine. Paired with consistent management, the MeshTech method could provide Maine with another tool to mitigate the spread of knotweed and reduce our reliance on chemical treatments."

    Source:
    maine.gov/dacf/about/news/news

    #SolarPunkSunday #NaturalSolutions #NoHerbicides #HerbicideAlternatives #JapaneseKnotweed #LandTrusts #Rewilding #NativePlantSpecies #RestoringNativePlantSpecies #InvasiveSpecies #InvasiveSpeciesWeek
    #MaineDepartmentOfAgricultureConservationAndForestry

  13. This is potentially a game-changer when it comes to dealing with #Knotweed (which just laughs at #Glyphosate)!

    #MeshTech: A New Strategy for Managing Knotweed

    February 24, 2026

    "Knotweed (#Reynoutria spp.) is a severely invasive plant originating from Eastern Asia. Introduced to the East Coast in the late 1800s as an ornamental, knotweed has since become ubiquitous across North America, reaching over 40 US states and 8 Canadian provinces. Knotweed has proven extremely detrimental to a wide variety of ecosystems in which it has established. Forming tall, dense thickets, knotweed shades out native plants, preventing them from growing. Additionally, knotweed is #allelopathic, meaning it releases organic compounds into the soil that inhibits the growth of native plant species.

    Knotweed also increases erosion along streams and riverbanks. By shading out native groundcover species and reducing the diverse root reinforcement provided by native species in riparian zones, riverbanks lose considerably more soil when infested with stands of knotweed (Hammer 2019, Matte et al. 2021). This erosion can increase turbidity of waterways, potentially affecting fish and other aquatic species (Henley et al. 2000). The reduction of native plants in riparian zones paired with winter dieback of knotweed stems also leaves riverbanks extremely vulnerable to winter and early spring flooding. This degradation of the riparian area creates a feedback loop in which floods carry knotweed propagules downstream, where they can colonize and increase erosion in new areas (Colleran et al. 2020).

    Historically, management of knotweed has been extremely time-and-resource intensive. Large populations require years of consistent treatment, often combining mechanical and chemical approaches to be effective. This commitment to diligent, multi-year mechanical treatment can be discouraging and can lead many to abandon treatment plans before completion. However, a new knotweed management technique could reduce labor inputs.

    Developed by Dr. Eric Donnelly, the MeshTech management technique has produced promising results at managing the growth and spread of knotweed while dramatically reducing labor inputs. This method involves cutting knotweed stems down to the soil level and laying -inch galvanized steel hardware fencing over the cut stems. When knotweed resprouts, it grows through the openings in the fencing. As stems mature and thicken, the metal fencing will begin to cut into the stems.

    The knotweed will continue to grow through the fencing, effectively girdling itself at its base. This method aims to impact knotweed's nutrient pathways while also damaging the structural integrity of the plant. Alone, this method cannot eradicate knotweed populations. However, the MeshTech method can potentially reduce the health and vigor of knotweed, thus reducing the amount of cutting required in a growing season and the rate of spread in an area.

    At the #PleasantHillPreserve in #ScarboroughME, the #ScarboroughLandTrust (#SLT) has begun implementing the MeshTech method to manage a portion of their knotweed infestation. An effort led by SLTs #Stewardship Director Sami Wolf and Nathan Hjort, owner of Absolutely Complete Property Services, initial results indicate that the hardware fencing is proving successful. The knotweed forced to grow through the hardware fencing at Pleasant Hill Preserve showed clear signs of strain. Stems demonstrated significantly stunted growth and had even begun flowering early, an indication that a plant is under stress. While knotweed struggled to grow through the -inch holes, #NativeFlora had begun to sprout up through the hardware fencing. Other knotweed management practices, such as #tarping or mowing, often discourage the growth of native species in a management area. Over time, the presence of native flora could provide an extra level of #BioticResistance that could help slow the growth of knotweed and help kickstart #NativeRevegetation efforts. Eventually, supplemental plantings of native woody species can take place by cutting openings in the fence to allow for these larger species to grow. The fence can also be easily staked down, preventing knotweed or moving water from moving it out of place.

    It is important to note that knotweed is a resilient plant and there is no single management action alone that will completely eliminate a population. The most effective knotweed management strategies use creative combinations of multiple approaches. Knotweed is a rhizomatous species, meaning it has an extensive, underground nutrient storage system made up of horizontal rhizomes that store nutrients. Draining this underground nutrient storage is the key to effectively managing an infestation. Consistent cutting of knotweed forces the plant to exhaust its below ground resources. By combining a cutting regimen with the MeshTech method, land managers could potentially see a significant reduction in their management timeline.

    The effectiveness of this method provides promising implications for the future of knotweed management in Maine. Paired with consistent management, the MeshTech method could provide Maine with another tool to mitigate the spread of knotweed and reduce our reliance on chemical treatments."

    Source:
    maine.gov/dacf/about/news/news

    #SolarPunkSunday #NaturalSolutions #NoHerbicides #HerbicideAlternatives #JapaneseKnotweed #LandTrusts #Rewilding #NativePlantSpecies #RestoringNativePlantSpecies #InvasiveSpecies #InvasiveSpeciesWeek
    #MaineDepartmentOfAgricultureConservationAndForestry

  14. This is potentially a game-changer when it comes to dealing with #Knotweed (which just laughs at #Glyphosate)!

    #MeshTech: A New Strategy for Managing Knotweed

    February 24, 2026

    "Knotweed (#Reynoutria spp.) is a severely invasive plant originating from Eastern Asia. Introduced to the East Coast in the late 1800s as an ornamental, knotweed has since become ubiquitous across North America, reaching over 40 US states and 8 Canadian provinces. Knotweed has proven extremely detrimental to a wide variety of ecosystems in which it has established. Forming tall, dense thickets, knotweed shades out native plants, preventing them from growing. Additionally, knotweed is #allelopathic, meaning it releases organic compounds into the soil that inhibits the growth of native plant species.

    Knotweed also increases erosion along streams and riverbanks. By shading out native groundcover species and reducing the diverse root reinforcement provided by native species in riparian zones, riverbanks lose considerably more soil when infested with stands of knotweed (Hammer 2019, Matte et al. 2021). This erosion can increase turbidity of waterways, potentially affecting fish and other aquatic species (Henley et al. 2000). The reduction of native plants in riparian zones paired with winter dieback of knotweed stems also leaves riverbanks extremely vulnerable to winter and early spring flooding. This degradation of the riparian area creates a feedback loop in which floods carry knotweed propagules downstream, where they can colonize and increase erosion in new areas (Colleran et al. 2020).

    Historically, management of knotweed has been extremely time-and-resource intensive. Large populations require years of consistent treatment, often combining mechanical and chemical approaches to be effective. This commitment to diligent, multi-year mechanical treatment can be discouraging and can lead many to abandon treatment plans before completion. However, a new knotweed management technique could reduce labor inputs.

    Developed by Dr. Eric Donnelly, the MeshTech management technique has produced promising results at managing the growth and spread of knotweed while dramatically reducing labor inputs. This method involves cutting knotweed stems down to the soil level and laying -inch galvanized steel hardware fencing over the cut stems. When knotweed resprouts, it grows through the openings in the fencing. As stems mature and thicken, the metal fencing will begin to cut into the stems.

    The knotweed will continue to grow through the fencing, effectively girdling itself at its base. This method aims to impact knotweed's nutrient pathways while also damaging the structural integrity of the plant. Alone, this method cannot eradicate knotweed populations. However, the MeshTech method can potentially reduce the health and vigor of knotweed, thus reducing the amount of cutting required in a growing season and the rate of spread in an area.

    At the #PleasantHillPreserve in #ScarboroughME, the #ScarboroughLandTrust (#SLT) has begun implementing the MeshTech method to manage a portion of their knotweed infestation. An effort led by SLTs #Stewardship Director Sami Wolf and Nathan Hjort, owner of Absolutely Complete Property Services, initial results indicate that the hardware fencing is proving successful. The knotweed forced to grow through the hardware fencing at Pleasant Hill Preserve showed clear signs of strain. Stems demonstrated significantly stunted growth and had even begun flowering early, an indication that a plant is under stress. While knotweed struggled to grow through the -inch holes, #NativeFlora had begun to sprout up through the hardware fencing. Other knotweed management practices, such as #tarping or mowing, often discourage the growth of native species in a management area. Over time, the presence of native flora could provide an extra level of #BioticResistance that could help slow the growth of knotweed and help kickstart #NativeRevegetation efforts. Eventually, supplemental plantings of native woody species can take place by cutting openings in the fence to allow for these larger species to grow. The fence can also be easily staked down, preventing knotweed or moving water from moving it out of place.

    It is important to note that knotweed is a resilient plant and there is no single management action alone that will completely eliminate a population. The most effective knotweed management strategies use creative combinations of multiple approaches. Knotweed is a rhizomatous species, meaning it has an extensive, underground nutrient storage system made up of horizontal rhizomes that store nutrients. Draining this underground nutrient storage is the key to effectively managing an infestation. Consistent cutting of knotweed forces the plant to exhaust its below ground resources. By combining a cutting regimen with the MeshTech method, land managers could potentially see a significant reduction in their management timeline.

    The effectiveness of this method provides promising implications for the future of knotweed management in Maine. Paired with consistent management, the MeshTech method could provide Maine with another tool to mitigate the spread of knotweed and reduce our reliance on chemical treatments."

    Source:
    maine.gov/dacf/about/news/news

    #SolarPunkSunday #NaturalSolutions #NoHerbicides #HerbicideAlternatives #JapaneseKnotweed #LandTrusts #Rewilding #NativePlantSpecies #RestoringNativePlantSpecies #InvasiveSpecies #InvasiveSpeciesWeek
    #MaineDepartmentOfAgricultureConservationAndForestry

  15. This is potentially a game-changer when it comes to dealing with #Knotweed (which just laughs at #Glyphosate)!

    #MeshTech: A New Strategy for Managing Knotweed

    February 24, 2026

    "Knotweed (#Reynoutria spp.) is a severely invasive plant originating from Eastern Asia. Introduced to the East Coast in the late 1800s as an ornamental, knotweed has since become ubiquitous across North America, reaching over 40 US states and 8 Canadian provinces. Knotweed has proven extremely detrimental to a wide variety of ecosystems in which it has established. Forming tall, dense thickets, knotweed shades out native plants, preventing them from growing. Additionally, knotweed is #allelopathic, meaning it releases organic compounds into the soil that inhibits the growth of native plant species.

    Knotweed also increases erosion along streams and riverbanks. By shading out native groundcover species and reducing the diverse root reinforcement provided by native species in riparian zones, riverbanks lose considerably more soil when infested with stands of knotweed (Hammer 2019, Matte et al. 2021). This erosion can increase turbidity of waterways, potentially affecting fish and other aquatic species (Henley et al. 2000). The reduction of native plants in riparian zones paired with winter dieback of knotweed stems also leaves riverbanks extremely vulnerable to winter and early spring flooding. This degradation of the riparian area creates a feedback loop in which floods carry knotweed propagules downstream, where they can colonize and increase erosion in new areas (Colleran et al. 2020).

    Historically, management of knotweed has been extremely time-and-resource intensive. Large populations require years of consistent treatment, often combining mechanical and chemical approaches to be effective. This commitment to diligent, multi-year mechanical treatment can be discouraging and can lead many to abandon treatment plans before completion. However, a new knotweed management technique could reduce labor inputs.

    Developed by Dr. Eric Donnelly, the MeshTech management technique has produced promising results at managing the growth and spread of knotweed while dramatically reducing labor inputs. This method involves cutting knotweed stems down to the soil level and laying -inch galvanized steel hardware fencing over the cut stems. When knotweed resprouts, it grows through the openings in the fencing. As stems mature and thicken, the metal fencing will begin to cut into the stems.

    The knotweed will continue to grow through the fencing, effectively girdling itself at its base. This method aims to impact knotweed's nutrient pathways while also damaging the structural integrity of the plant. Alone, this method cannot eradicate knotweed populations. However, the MeshTech method can potentially reduce the health and vigor of knotweed, thus reducing the amount of cutting required in a growing season and the rate of spread in an area.

    At the #PleasantHillPreserve in #ScarboroughME, the #ScarboroughLandTrust (#SLT) has begun implementing the MeshTech method to manage a portion of their knotweed infestation. An effort led by SLTs #Stewardship Director Sami Wolf and Nathan Hjort, owner of Absolutely Complete Property Services, initial results indicate that the hardware fencing is proving successful. The knotweed forced to grow through the hardware fencing at Pleasant Hill Preserve showed clear signs of strain. Stems demonstrated significantly stunted growth and had even begun flowering early, an indication that a plant is under stress. While knotweed struggled to grow through the -inch holes, #NativeFlora had begun to sprout up through the hardware fencing. Other knotweed management practices, such as #tarping or mowing, often discourage the growth of native species in a management area. Over time, the presence of native flora could provide an extra level of #BioticResistance that could help slow the growth of knotweed and help kickstart #NativeRevegetation efforts. Eventually, supplemental plantings of native woody species can take place by cutting openings in the fence to allow for these larger species to grow. The fence can also be easily staked down, preventing knotweed or moving water from moving it out of place.

    It is important to note that knotweed is a resilient plant and there is no single management action alone that will completely eliminate a population. The most effective knotweed management strategies use creative combinations of multiple approaches. Knotweed is a rhizomatous species, meaning it has an extensive, underground nutrient storage system made up of horizontal rhizomes that store nutrients. Draining this underground nutrient storage is the key to effectively managing an infestation. Consistent cutting of knotweed forces the plant to exhaust its below ground resources. By combining a cutting regimen with the MeshTech method, land managers could potentially see a significant reduction in their management timeline.

    The effectiveness of this method provides promising implications for the future of knotweed management in Maine. Paired with consistent management, the MeshTech method could provide Maine with another tool to mitigate the spread of knotweed and reduce our reliance on chemical treatments."

    Source:
    maine.gov/dacf/about/news/news

    #SolarPunkSunday #NaturalSolutions #NoHerbicides #HerbicideAlternatives #JapaneseKnotweed #LandTrusts #Rewilding #NativePlantSpecies #RestoringNativePlantSpecies #InvasiveSpecies #InvasiveSpeciesWeek
    #MaineDepartmentOfAgricultureConservationAndForestry

  16. Lowe’s faces backlash after customer posts photo of store’s dumpster: ‘It’s so sad’

    If you have a yard, one of the best things you can do for the planet is plant…
    #NewsBeep #News #Environment #AU #Australia #localstores #Lowe'sstore #nativeplantspecies #PhotoCredit #plasticplantpots #plasticwaste #Science
    newsbeep.com/au/409354/

  17. Lowe’s faces backlash after customer posts photo of store’s dumpster: ‘It’s so sad’

    If you have a yard, one of the best things you can do for the planet is plant…
    #NewsBeep #News #US #USA #UnitedStates #UnitedStatesOfAmerica #Environment #localstores #Lowe'sstore #nativeplantspecies #PhotoCredit #plasticplantpots #plasticwaste #Science
    newsbeep.com/us/403915/