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Posts Tagged ‘air spade transplanting’

A note of thanks

Posted in Air tool, Air tool transplanting, Arboriculture, Bare-root transplanting, Massachusetts Arborists Association, Trees, tagged , , , , , , , , , , , , , , , , on September 18, 2009| Leave a Comment »

In the year since I’ve been writing about bare-root transplanting and air-tool use, I’ve had the great good fortune to be able to ask questions of the real experts, the arborists who are doing this work and promoting it throughout Massachusetts and the US.  Three in particular have been especially helpful:

Mike Furgal

Mike Furgal

Mike Furgal, the original developer of the air-tool bare-root transplant method, has patiently reviewed my articles and given thoughtful and well-considered answers to all my questions.  He has a tremendous amount of knowledge about trees and transplanting, and he is extremely generous in sharing it.

Matt Foti

Matt Foti

Matt Foti, who hosted the first MAA workshop on air-tool bare-root transplanting (given by Mike and Matt) at his nursery at Nonset Farm, has taken the time to discuss a wide range of tree-related issues with me, and to provide clarifications to help make this information as up-to-the-minute and accurate as possible.  He has been the catalyst to get word of bare-root work out to the MAA and beyond, and has put energy and dedication into practicing, experimenting, and teaching.  Another generous guy.

Carl Cathcart

Carl Cathcart

Carl Cathcart, Consulting Arborist, has provided encouragement and still more information to me from the day we met at the Nonset Farm workshop.  He alerted me to the Cavicchio’s root-washing experiment, he talks up my writing to other arborists, and his encouragement is what got me writing about this stuff in the first place.

In July, Matt and Mike transplanted a number of very large trees for a project in Wellesley, MA.  They (and the homeowner, contractor, and landscape architect) kindly allowed me and a colleague to videotape the moving of two forty-foot high London Plane trees.  Editing of over six hours of videotape is underway now, and I’m hopeful that I’ll have a decent film this fall that Matt and Mike can do some voiceover comments on (not possible on site — air-tools are incredibly loud!).    When we’re done, it should give a fairly comprehensive look at how this method works for transplanting significant trees.  (And I bet Carl’s going to talk it up…)

For all these reasons, I offer my sincerest thanks to Mike, Matt, and Carl.  They are models of generosity, and I couldn’t be more grateful.

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MAA Elm Bank workshop6 — air tool tree transplanting

Posted in Air tool, Air tool transplanting, Arboriculture, Bare-root transplanting, Massachusetts Arborists Association, Plant management, Trees, tagged , , , , , , , , , , , , , on September 17, 2009| 2 Comments »

Air spade tree transplanting.  Warning:  Long post, tons of photos.

Probably the biggest draw of the Elm Bank workshop on September 10, 2009, was Mike Furgal’s moving of a 6″ caliper elm hybrid.  Mike first developed the method of air-tool bare-root transplanting in 2004, and has been working on it since, moving ornamental specimens and canopy trees with great success.  The biggest tree he has moved was a 21″ caliper, 50′ high mulberry (it was the owner’s choice), in November 2008; this past July he worked on Matt Foti’s project of moving several large trees, including the five 40′ high London plane trees showcased in posts on www.takingplace.net.

(To find those posts, click on the link in the last sentence, and then click on the ‘Plants’ link in Categories listed on the right side of the page.  All posts related to air-tool transplanting will pop up; the links for the London plane project are dated July 29, July 31, August 3, and August 7.  Browse among earlier ‘Plants’ posts for more articles on bare-root transplanting.)

So Mike has lots of experience with this work, and continues to think about the best ways — for the trees and for the crews — to move trees.  He made a number of observations in his Elm Bank talk about air-tool transplanting:

1.  The larger the tree, the more cost-effective the bare-root move is.

2.  Bare-root transplanting lets roots settle immediately into the soil on the new site.  With no root ball/surrounding soil interface to impede moisture saturation or interrupt moisture flow, the roots are able to adapt right away and start growing.  As a result, watering and aftercare are also easier and more effective.

3.  The greater the depth of good quality soil, the more apt roots are to grow down as well as out.

4.  Arborists and landscape architects MUST stress the need for sustained aftercare once a tree has been bare-root transplanted.  One year of attentive watering is good, but two, three, four, or even five years is better.

5.  Mike asked “Do we arborists plant trees or do we install them?”  When you install a B&B tree, he suggested, you dig a hole, put the tree in the ground, backfill, and water.  When you plant a tree, you remove the wire basket, remove the burlap and twine, possibly break up the soil mass, spread the roots out to promote outward growth, and water sufficiently for the next couple of years for the tree to root into its home.  ‘Installing’ a tree makes the tree simply a product, a commodity that can (and may have to be) replaced.  ‘Planting’ a tree recognizes and attends to the needs of this living organism, and promotes its good health and sustained long life.

6.  Air tools dry out root surfaces — pre-watering of the root mass and soil around a tree to be moved helps the tree hydrate and maintain turgor pressure during the transplant operation.  Mike suggested that trees may have a greater tolerance for short-term root drying than is commonly assumed, and urged the audience to observe what happens to the roots of trees they may move bare-root, and how those trees react to the process.

7.  When you use an air tool to excavate a tree for transplanting, dig your soil trench in sections, and dig it deep enough (measured in feet, not inches) to hold quite a bit of blown out soil, thus minimizing the number of times it needs to be emptied.  Mike pointed out that it’s necessary to consider how best to move the excess soil around; it’s important to plan the job at the outset, including how to access the plant(s) to be moved, how to avoid plants to remain, and where to stockpile the blown-out soil.

8.  The bare-root process can allow arborists use lighter equipment (depending on tree size, of course) than may be necessary for B&B trees.  A 2000-pound mini-excavator can pick up a six-inch elm, while to move that same tree B&B would require a large backhoe or front-end loader.

9.  The more fibrous a tree’s root system, the less likely it is to need cabling after a bare-root transplant.  A root mass’s size, the nature of its rooting, and the relationship between those factors and the tree’s size will also factor into the decision to cable a newly-planted bare-root tree.

Mike had blown soil out from around the roots of the Elm Bank elm the day before the workshop, and kept them covered until the workshop demonstrations began.

Healthy elm tree, soil blown off its roots, ready to be moved.

Healthy elm tree, soil blown off its roots, ready to be moved.

Closeup of the roots. This root mass measured 14 feet across at its widest. Roots have been pigtailed -- that is, tied together and lifted to keep them from breaking during the air-tool process and move.

Closeup of the roots. This root mass measured 14 feet across at its widest. Roots have been pigtailed -- that is, tied together and lifted to keep them from breaking during the air-tool excavation and move.

Dingo used to move the tree, whose new location was about fifty feet away from where it originally stood.

Dingo used to move the tree, whose new location was about fifty feet away from where it originally stood.

Mike Furgal and his assistant planning their course of action. Note the tagline leading out from the canopy; it will be used to stabilize the tree during the move and backfill operation.

Mike Furgal and his assistant planning their course of action. Note the tagline leading out from the canopy; it will be used to stabilize the tree during the move and backfill operation.

Mike directs the Dingo forks under the root plate while his assistant holds the trunk stable. Note the heavy burlap padding both on the Dingo and on the tree trunk.

Mike directs the Dingo forks under the root plate while his assistant holds the trunk stable. Note the heavy burlap padding both on the Dingo and on the tree trunk.

Lifting the tree. Trunk padding rests on Dingo padding; tagline helps the trunk and canopy remain steady.

Lifting the tree. Trunk padding rests on Dingo padding; tagline helps the trunk and canopy remain steady.

Beginning to move the tree requires that it sit firmly on the forks, and remain balanced through the move.

Beginning to move the tree requires that it sit firmly on the forks, and remain balanced through the move.

Cutting the last few anchored roots, and any roots broken in the process. Loppers work best; be sure they are sharp enough to make clean cuts (a set of root-pruning tools is useful, as cutting dirty roots with top-growth tools will ruin their blades quickly).

Cutting the last few anchored roots, and any roots broken in the process. Loppers work best; be sure they are sharp enough to make clean cuts (a set of root-pruning tools is useful, as cutting dirty roots with top-growth tools will ruin their blades quickly).

Moving the elm up its soil ramp and out of its plant bed; an attending arborist jumps in to help the roots past this thriving pine.

Moving the elm up its soil ramp and out of its plant bed; an attending arborist jumps in to help the roots past this thriving pine.

Elm tree on the move. Stabilizing the trunk and moving slowly keeps the job safe.

Elm tree on the move. Stabilizing the trunk and moving slowly keeps the job safe.

Big canopy. This year's growing season was moist and fairly cool, leading to lots of topgrowth and long twig extension.

Big canopy. This year's growing season was moist and fairly cool, leading to lots of topgrowth and long twig extension.

Mike steers the Dingo to the crater he has dug. It is relatively shallow, to match the elm root mass depth, and wide (though not wide enough at first -- a couple of trenches had to be dug beyond the crater at the last minute to some extra-long roots).

Mike steers the Dingo to the crater he has dug. It is relatively shallow, to match the elm root mass depth, and wide (though not wide enough at first -- a couple of trenches had to be dug beyond the crater at the last minute to some extra-long roots).

Lowering the elm into its crater.

Lowering the elm into its crater.

Whoa! A moment of excitement, when tree weight and crater's-edge sloped combined to tip the Dingo on its tracks.

Whoa! A moment of excitement, when tree weight and crater's-edge slope combined to tip the Dingo on its tracks.

The Iwo Jima shot. A team of volunteers ran in to right the tree.

The Iwo Jima shot. A team of volunteers ran in to right the tree.

Holding the tree upright once the Dingo forks have been pulled out.

Holding the tree upright once the Dingo forks have been pulled out.

Again, holding the tree upright. The pigtails now get cut open and roots spread out radially from the trunk.

Again, holding the tree upright. The pigtails now get cut open and roots spread out radially from the trunk.

Freeing the roots, beginning to dig in backfill, and watering to make a soil slurry that will eliminate air pockets and help anchor the spread-out root plate.

Freeing the roots, beginning to dig in backfill, and watering to make a soil slurry that will eliminate air pockets and help anchor the spread-out root plate.

With the tree in its new location, burlap padding the trunk may be removed.

With the tree in its new location, burlap padding the trunk may be removed.

Digging in the root mass. It's important to pack the soil directly under the tree's trunk, to eliminate air holes and ensure against settling of the tree lower in its hole over time.

Digging in the root mass. It's important to pack the soil directly under the tree's trunk, to eliminate air holes and ensure against settling of the tree lower in its hole over time.

Big canopy on this tree, with a root mass to match.

Big canopy on this tree, with a root mass to match.

A bucket on the Dingo shakes backfill -- the native soil onsite in this case -- into the crater as workers wield shovels and a hose.

A bucket on the Dingo shakes backfill -- the native soil onsite in this case -- into the crater as workers wield shovels and a hose.

Trunk flare, placed in the proper relationship to finish grade. Note the cut root ends; clean cuts with sharp tools let the wounds heal quickly.

Trunk flare, placed in the proper relationship to finish grade. Note the cut root ends; clean cuts with sharp tools let the wounds heal quickly.

More backfill, more water, and someone still holds the tagline for safety. The Dingo never drives over the root mass, but drops soil onto it from outside.

More backfill, more water, and someone still holds the tagline for safety. The Dingo never drives over the root mass, but drops soil onto it from outside the planting hole.

Still more water, as the backfilling continues.

Still more water, as the backfilling continues.

Building the well wall, as water continues to flow.

Building the well wall, as water continues to flow.

Six-inch caliper elm tree in its new location. Some wilt is evident -- likely because the tree was excavated the day before and the roots had been exposed through the course of the several-hours long workshop.

Six-inch caliper elm tree in its new location. Some wilt is evident -- likely because the tree was excavated the day before and the roots had been exposed through the course of the several-hours long workshop. The tagline finally lies slack. Two to four inches of mulch will next be added, and kept away from the trunk.

Demonstrating arborist at this station:

Mike Furgal, Furgal’s Tree and Landscape, Northborough, MA

Air spade tree transplanting

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MAA Elm Bank workshop5 — root forensics

Posted in Air tool, Air tool transplanting, Arboriculture, Bare-root transplanting, Massachusetts Arborists Association, Plant management, Trees, tagged , , , , , , , , , , , , , on September 16, 2009| Leave a Comment »

Dave Leonard from Lexington, KY, manned the root forensics station at the September 10 MAA air-tool workshop at Elm Bank.  He used an Air Knife to excavate the root ball of a 4″ caliper red maple that was showing signs of decline.

Turf provided the only competition for this tree, but it was showing dieback and early fall color at the MAA workshop.

Turf provided the only competition for this tree, but it was showing dieback and early fall color at the MAA workshop. Dave Leonard excavated at its base to take a look at its rooting habit for possible problems.

With soil blown away from the original root ball, it was clear that the tree’s planting had initiated some problems — parts of the wire basket appeared at the edges of the root ball, and cut root ends had sent out an explosion of fibrous roots that turned back toward the trunk.

Root ends cut during the tree's digging in the nursery sent out masses of fibrous roots, quite a few of which turned back toward the trunk. The interface between root ball soil and surrounding soil can inhibit root growth into the surrounding soil; removing burlap, removing the wire basket, and breaking up the root ball soil, particularly at the ball's perimeter, can help promote the spread of new roots.

Root ends cut during the tree's digging in the nursery sent out masses of fibrous roots, quite a few of which turned back toward the trunk. The interface between root ball soil and surrounding soil can inhibit root growth into the surrounding soil; removing burlap, removing the wire basket, and breaking up the root ball soil, particularly at the ball's perimeter, can help promote the spread of new roots. Note the soil line some inches up the trunk flare; removing soil above the trunk flare will also benefit the tree and lessen its stress.

Dave cut away the roots that he could not redirect outward, and trimmed off the roots that had begun to circle the trunk flare’s base, which would otherwise eventually girdle the trunk and major anchor roots.  Some of these roots were the beginnings of a secondary root system put out by the tree in response to its stress.

Removing the worst of the inward-growing and circling roots improves the tree's chances for survival.

Removing the worst of the inward-growing and circling roots improves the tree's chances for survival.

After excavating the root ball, Dave intended to continue to blow soil out away from the root ball, creating a shallow crater  out at least to the tree’s dripline.  Removing turf from that zone would eliminate plant competition for soil moisture; the addition of 2-4″ of mulch (kept away from the trunk) would help the soil retain moisture and an even temperature, add organics to it over time, and lessen the chance of soil compaction that inhibits soil/air gas exchange.

Dave said that he would also consider lifting the tree a few inches, to bring its trunk flare into a better relationship with surrounding grade.  This tree had been in the ground for a couple of years; Dave suggested that tree lifting might be worth doing within two to four years of planting, but could be detrimental to the tree after that.  (The window of opportunity for lifting a tree would be a lot wider if an air tool were used, rather than a Bobcat or excavator, as the tree could be bare-rooted and set back in place with relatively little stress from the process.)

Demonstrating arborist at this station:

Dave Leonard, Dave Leonard Consulting Arborist, Inc., Lexington, KY

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Air tool seminar

Posted in Air tool, Air tool transplanting, Arboriculture, Bare-root transplanting, Plant management, Trees, tagged , , , , , , , , , , on August 24, 2009| Leave a Comment »

Here’s a quick post to alert readers to the Massachusetts Arborists Association‘s Special Seminar and Demonstration on air tool use. A team of four arborists — Mike Furgal, Matt Foti, Rolf Briggs, and Dave Leonard — will be showing how compressed-air tools can be used in arboricultural work (root forensics, bare-root planting, bare-root transplanting, shrub moving, etc.), and will discuss the advancements that this technology provide those working with or using woody plants in the landscape.

The seminar will be on September 10 at Elm Bank, the Massachusetts Horticultural Society’s property in Wellesley, MA — check the MAA link above for registration information.

Registration is not limited to arborists, so interested landscape architects and contractors can go and see this work. I highly recommend signing up; last year’s seminar at Matt Foti’s farm, where Mike Furgal debuted the air-tool transplanting method, was really outstanding, and this year there’s bound to be even more information available and a great deal of informed and informative discussion.

One point: Bare-root transplanting, either with an air-tool or by root-washing, may never replace other methods of transplanting. But for specimen tree transplanting, where the value of an existing tree merits the effort involved, it is currently the gold standard. The number of roots retained with bare-root transplanting prevents the tremendous stress caused by other methods, and should be considered a valuable tool in the kit available to landscape architects, arborists, and contractors.

Bare-rooting allows for the moving of a tree this large in less than one day...

Bare-rooting allows for the moving of a tree this large in less than one day...

...while preserving this much root mass.

...while preserving this much root mass.

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Air tool observations

Posted in Air tool, Air tool transplanting, Arboriculture, Bare-root transplanting, Trees, tagged , , , , , , , , , , on August 7, 2009| 5 Comments »

Matt Foti took these photos from last week’s big transplant project, and they illustrate some useful points.

Air-tool excavation is a very messy process, and it bears mentioning again that eye, ear, head, and face protection are really necessary. Mike Furgal is wearing a face mask here; a respirator would give him even greater lung protection. Blowing a good sandy loam is one thing; when pebbles and small rocks show up in the soil they become missiles, so long sleeves and pants should also be worn.

Air-tool excavation is a very messy process, and it bears mentioning again that eye, ear, head, and face protection are really necessary. Mike Furgal is wearing a face mask here; a respirator would give him even greater lung protection. Blowing a good sandy loam is one thing; when pebbles and small rocks show up in the soil they become missiles, so long sleeves and pants should also be worn.

Here is what a well-tied tree looks like in transit. Note how the roots have been carefully pigtailed, and tiebacks to the tree's trunk are done neatly and professionally, to preserve the roots during excavation and the move.

Here is what a well-tied tree looks like in transit. Note how the roots have been carefully pigtailed, and tiebacks to the tree's trunk are done neatly and professionally, to preserve the roots during excavation and the move.

This project took place in late July, during a week of 85-degree heat. Leaf turgor pressure was maintained throughout by the trees themselves (aided with some in-process watering).

This project took place in late July, during a week of 85-degree heat. Leaf turgor pressure was maintained throughout by the trees themselves (aided with some in-process watering).

Keeping the pigtails neat from the start makes unbundling and spreading the roots fairly easy. The tree is now resting in the crater dug for its new home; the crew will unbundle and spread the roots out radially, pack soil underneath them to help level the tree, and backfill, water, and mulch the transplant. Using a forklift allows the arborists to look under the root plate and gauge its bottom profile, which helps in shaping the floor of the planting crater.

Keeping the pigtails neat from the start makes unbundling and spreading the roots fairly easy. The tree is now resting in the crater dug for its new home; the crew will unbundle and spread the roots out radially, pack soil underneath them to help level the tree, and backfill, water, and mulch the transplant. Using a forklift allows the arborists to look under the root plate and gauge its bottom profile, which helps in shaping the floor of the planting crater.

Project arborists:

Matthew R. Foti Landscape and Tree Service, Concord, MA

Furgal’s Tree and Landscape, Northborough, MA

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Air tool excavation — London Planes

Posted in Uncategorized, tagged , , , , , , , , , , , , , , , on July 31, 2009| Leave a Comment »

The project showcased in the last post continued this week, with the bare-root transplanting of five London Plane trees (Platanus x acerifolia) and a mature crabapple. Again, Matthew R. Foti Landscape and Tree Service was the prime arborist on this site in a Boston suburb — but this week the Foti crew was joined by Mike Furgal, who was the first arborist to use the air tool for bare-rooting trees in this way.

Mike has been doing this work a bit over five years, and his expertise was the basis for the bare-root workshop sponsored by the Massachusetts Arborists Association and hosted by Matt last August.   Still, neither arborist had moved this many trees of this size — the London Planes ranged from 11 inches dbh to 13″ dbh — and in teaming up they brought all their knowledge to bear to the challenges of this particular project. (The homeowner figured she had hired the A team, given the pair’s depth of knowledge and breadth of experience.)

I took a lot of photos during the first day, and returned today to shoot more. My colleague Bruce Jones and I also shot extensive videotape of the process, which is currently in editing, and will explain the sequence of bare-root transplanting using compressed air — watch this blog for word that it’s done and available.

To avoid computer-use burnout (mine), I’m posting one batch of photos today, and will add another post with more in a few days. I promise, this first batch of images will be plenty to digest for a while….

The site before the five London Planes get moved. The first tree to be excavated and moved is the one furthest from the camera, just to the right of the white trailer. These trees flanked a driveway; in this photo the driveway asphalt has been taken up and the gravel base has been partially removed. Trees are located 3-4 feet from the drive edge.

The site before the five London Planes get moved. The first tree to be excavated and moved is the one furthest from the camera, just to the right of the white trailer. These trees flanked a driveway; in this photo the driveway asphalt has been taken up and the gravel base has been partially removed. Trees are located 3-4 feet from the drive edge.

The mini excavator has dug a partial trench; the trench must be dug in sections, or it would be too difficult to reach in and haul out the blown soil. A climber is in the tree, tying in lines to be used later during transport.

The mini excavator has dug a partial trench; the trench must be dug in sections, or it would be too difficult to reach in and haul out the blown soil. A climber is in the tree, tying in lines to be used later during transport.

Bare-rooting has begun, and one pigtail of roots is already tied to the tree's trunk. The tree did not extend any roots into the gravel driveway base, so it only has 3-4 feet of root mass on that side. It did extend its roots out parallel to the driveway, and radially out into the lawn. A good depth of soil also let it sink its roots quite deep -- 2-3 feet -- into the ground. Mike Furgal is in the green jumpsuit and facemask.

Bare-rooting has begun, and one pigtail of roots is already tied to the tree's trunk. The tree did not extend any roots into the gravel driveway base, so it only has 3-4 feet of root mass on that side. It did extend its roots out parallel to the driveway, and radially out into the lawn. A good depth of soil also let it sink its roots quite deep -- 2-3 feet -- into the ground. Mike Furgal is in the green jumpsuit and facemask.

Pigtailed roots, and short roots along the driveway edge.

Pigtailed roots, and short roots along the driveway edge.

Good deep soil, good deep roots -- everywhere but at the gravel.

Good deep soil, good deep roots -- everywhere but at the gravel.

Lots of activity at the tree: two air-tool excavators, an mini excavator digging the trench, a Bobcat taking soil away, and Matt Foti assessing progress.

Lots of activity at the tree: two air-tool excavators, an mini excavator digging the trench, a Bobcat taking soil away, and Matt Foti assessing progress.

Blowing out soil, getting closer to the move.

Blowing out soil, getting closer to the move.

Padding the trunk with layers of burlap for the move.

Padding the trunk with layers of burlap for the move.

Giant forks have been run under the tree, and the loader is getting ready to lift it. Four taglines are visible in this shot; they won't prevent the tree from falling, but help indicate how it is balanced during the move.

Giant forks have been run under the tree, and the loader is getting ready to lift it. Four taglines are visible in this shot; they won't prevent the tree from falling, but help indicate how it is balanced during the move.

Lifting and backing, slowly and very carefully.

Lifting and backing, slowly and very carefully.

A pause for the forks to be positioned more firmly.

A pause for the forks to be positioned more firmly.

Big machine, bigger tree. The root plate on this tree extended about 18 feet across at its maximum width. Transporting a large, upright live tree is a slow-speed operation.

Big machine, bigger tree. The root plate on this tree extended about 18 feet across at its maximum width. Transporting a large, upright live tree is a slow-speed operation.

Compare this root plate to that of a B&B tree, or a tree-spaded one (though this tree is too large for a tree spade), and it's clear what an advance this technology promises to be in benefiting the health of trees to be transplanted. The tree's energy reserves are largely stored in the roots; save the roots, reduce stress on the tree, and speed re-establishment after planting.

Compare this root plate to that of a B&B tree, or a tree-spaded one (though this tree is too large for a tree spade), and it's clear what an advance this technology promises to be in benefiting the health of trees to be transplanted. The tree's energy reserves are largely stored in the roots; save the roots, reduce stress on the tree, and speed re-establishment after planting.

The tree, post-planting. The arborists assessed how deep the root mass was and how it was formed, and dug the planting hole to accommodate, roughly, its form. Once the tree is placed in the hole, the roots are spread out radially by hand, and loam shovelled in around, under, and over them. Watering starts during the digging process, once the tree has been levelled, so that a loam slurry anchors the root plate and tree to its new site. A well is formed to retain moisture and more water is added.

The tree, post-planting. The arborists assessed how deep the root mass was and how it was formed, and dug the planting hole to accommodate, roughly, its form. Once the tree is placed in the hole, the roots are spread out radially by hand, and loam shovelled in around, under, and over them. Watering starts during the digging process, once the tree has been levelled, so that a loam slurry anchors the root plate and tree to its new site. A well is formed to retain moisture and more water is added.

Two to four inches of mulch is added around the tree, and kept away from the trunk.

Two to four inches of mulch is added around the tree, and kept away from the trunk.


Minor pruning to fix a lamppost-branch conflict.

Minor pruning to fix a lamppost-branch conflict.

The transplanted tree seven hours later, in its new home.

The transplanted tree seven hours later, in its new home.

Matthew R. Foti Landscape and Tree Service, Lexington, MA – lead arborist

Furgal Tree and Landscape, Northborough, MA – consulting arborist

Robert Hanss Inc. Landscape Construction – landscape contractor

Reed Hilderbrand – landscape architects (Chris Moyles, project manager)

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Another air-tool bare-root transplanting

Posted in Air tool, Air tool transplanting, Arboriculture, Bare-root transplanting, Plant management, Trees, tagged , , , , , , , , , , , , on July 29, 2009| Leave a Comment »

Here’s a series of photos from an air-tool transplant project executed last week by a crew from Matthew R. Foti Landscape and Tree Service of Lexington, MA. These guys have been using air tools to bare-root trees for some time now, and they have refined the process pretty skillfully.

Shown here are a very large treeform Taxus and a smallish Cornus kousa. The Kousa Dogwood had been planted only about 8′ away from the Yew, and probably had been sheltered by it in its early days. At this stage, though, their crowns had been competing, and a revised landscape design gave further reason to spade out and move both plants.

Taxus and Cornus kousa planted closely together, as part of a larger planting that has already been dismantled.

Taxus and Cornus kousa planted closely together, as part of a larger planting that has already been dismantled.

The Bobcat has dug a trench, and the crew is blowing soil into it. Note that the Yew's branches have been tied up to keep them out of the way.

The Bobcat has dug a trench, and the crew is blowing soil into it. Note that the Yew's branches have been tied up to keep them out of the way.

Taxus is a deeply rooted plant -- notice the trench depth, and presence of roots in the lower part of the mound.

Taxus is a deeply rooted plant -- notice the trench depth, and presence of roots in the lower part of the mound.

Soil and rocks fly during the process, so eye and ear protection are essential. The white jumpsuits keep these guys from getting covered with soil (color is optional).

Soil and rocks fly during the process, so eye and ear protection are essential. The white jumpsuits keep these guys from getting covered with soil (color is optional).

Bobcat continually takes blown soil out of the trench and stockpiles it.

Bobcat continually takes blown soil out of the trench and stockpiles it.

Double-teaming a soil clod. Pushing the nozzle down into the root mass helps loosen soil inside it.

Double-teaming a soil clod. Pushing the nozzle down into the root mass helps loosen soil inside it.

Pigtailing the roots -- tying them in long bundles -- helps keep them protected and out of the way.

Pigtailing the roots -- tying them in long bundles -- helps keep them protected and out of the way.

Twine holds the pigtails together; when the plant is ready to move, twine can also be used to tie the pigtails back to the trunk, to keep them from dragging during transport.

Twine holds the pigtails together; when the plant is ready to move, twine can also be used to tie the pigtails back to the trunk, to keep them from dragging during transport.

Progress shot. Look at how deep the trench is. The Taxus is nearly ready, and shortly the crew will move on to the Cornus kousa; when both trees have been blown out, they will be separated and moved to new locations.

Progress shot. Look at how deep the trench is. The Taxus is nearly ready, and shortly the crew will move on to the Cornus kousa; when both trees have been blown out, they will be separated and moved to new locations.

The following week: Taxus in a new spot, looking relaxed and healthy

The following week: Taxus in a new spot, looking relaxed and healthy

Final shot. Asymmetry in the Taxus crown reflects its previous location in a larger planting.

Final shot. Asymmetry in the Taxus crown reflects its previous location in a larger planting.

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Air spade in action

Posted in Air knife, Air spade, Air tool, Air tool transplanting, Arboriculture, Bare-root transplanting, Plant management, Shrubs, Trees, tagged , , , , , , , , , , , , , , , , , , on May 16, 2009| Leave a Comment »

This past winter I developed plans for a couple of areas on the property belonging to my longest-standing and wonderfully enthusiastic clients, L. and A. on the North Shore. They have a lovely place on a rocky cliff overlooking Nahant Bay, and they enjoy making it even more beautiful and comfortable each year. They are both artists, and both appreciate art in two and three dimensions: L. gardens and sculpts; A. is a talented photographer.

L. and A. had asked me to figure out how to screen out views of two neighbors from their house, and to develop plans in the two areas that would work with the extensive mature plantings already in place. I drew up plans that would bring a few new plants in, as well as reuse a number of plants already onsite. L. and A. liked the ideas, and we scheduled a date to move ahead.

Leahy Landscaping of Lynn carried out the work of digging and moving the plants; the crew, led by Anibal Marita, was excellent. At my request, and under the supervision of Mark Bolcome, Leahy’s arborist, they used an air spade on the project; we were working in a heavily planted area and I wanted to disturb or lose as few roots as possible.

The plan:  Remove a 32′ long, 7′ high holly (<em>Ilex ‘China Girl'</em>) hedge from the edge of a residential drive court, reusing some of the plants for screening at the front property line, and install a collection of transplanted shrubs, a new Japanese maple, and some low Green Wave yews where the holly had been. Transplant most of the hollies to provide a 22’ long screen at the front property line, and use the rest at another location onsite.

Proposed methods:  Hand-dig the holly. To avoid further stressing the three aging red pines under which some of the hollies were to be transplanted, excavate the transplant site with an air spade. Hand-dig the rest of the plants.

Actual methods:  Hand-dug the holly, then air spaded the root balls to loosen the nursery soil at their cores. Discovered that the wire baskets had not been removed at the original planting, removed those, and loosened the remaining soil, leaving roots intact. Removing the soil allowed the plants to fit in shallower-depth holes, which was helpful on a site with a lot of existing tree roots and drainage pipes. Removing the wire baskets will allow the hollies’ roots (and crowns) to grow unimpeded in their new locations. Excavated under the pines with the air spade, and removed existing shrubs there also with the air spade, leaving all roots, including masses of feeder roots, intact. Unwrapped the Japanese maple root ball, removed the wire basket and burlap, and removed/loosened the soil with the air spade.

Removing a girdling root from the Japanese maple. Note the root-ball soil line, four inches up the tree's trunk from the base of the trunk flare.

Removing a girdling root from the Japanese maple. Note the root-ball soil line, four inches up the tree's trunk from the base of the trunk flare.

With a mini-claw mattock, pulled soil away from the trunk flare; soil had been piled 4″ up the trunk, concealing a girdling root and the flare itself. Mark Bolcome chiseled away the girdling root and made sure the flare was correctly exposed before laborers backfilled and watered in the root ball.

Removed the red clay soil encasing the nursery root ball of a rhododendron that had been planted onsite several years ago, but that had struggled for those years.

Breaking up the clay soil in the root ball of a 4' rhododendron.

Breaking up the clay soil in the root ball of a 4' rhododendron.

With the concrete-like soil mostly gone, the plant should finally have a chance to spend its energy growing, rather than trying to break through that clay cast.

Cleared ground cover by hand in front of a row of mature Taxus trees,

Holes for holly transplants were dug by air spade, to minimize disturbance to the roots of the treeform yew hedge behind the plywood.

Holes for holly transplants were dug by air spade, to minimize disturbance to the roots of the treeform yew hedge behind the plywood.

then excavated transplant holes with the air spade — again, to keep from disturbing roots of the existing yews — and transplanted more of the holly here.

The original plan, which also included the planting of six large clump bamboos and the moving of several broadleaf evergreen and herbaceous plant, was scheduled to take perhaps two days. The hollies changed everything, though. They were enormous: planted eight or nine years ago at 3′ on center, they opened out to seven to eight feet in width.

One holly, trussed for moving. Ten of these plants had been placed on 3' centers to make a hedge; when freed from the hedge, each one opened out to cover at least seven feet in breadth.

One holly, trussed for moving. Ten of these plants had been placed on 3' centers to make a hedge; when freed from the hedge, each one opened out to cover at least seven feet in breadth.

There was no way we could fit them all where we had intended; they would have taken up more than seventy linear feet if we had placed them side by side!

Hand-dug holly that has been bare-rooted being prepared for transplant. Notice the clumps of hard, heavy soil from its original root ball lying around it; the wire basket is lying off to the left.

Hand-dug holly that has been bare-rooted being prepared for transplant. Notice the clumps of hard, heavy soil from its original root ball lying around it; the wire basket is lying off to the left.

The trussed holly, now untied and moved to the planting bed, is at the back right of the photo. Liberated from the crush of a too-tight hedge planting, it has opened out to cover almost nine feet of fence.

The trussed holly, now untied and moved to the planting bed, is at the back right of the photo. Liberated from the crush of a too-tight hedge planting, it has opened out to cover almost nine feet of fence.

So it took a while to figure out where to put them, and then more time preparing those new locations to receive them. We ended up placing them — ten from the hedge, plus a shorter male plant — at various points around the property’s edge, where they do a magnificent job of screening out the neighbors.

Accomplishing the work took a full three days. Lessons learned:

1. An air spade is a great tool for any kind of planting work. We tested its capabilities, and found it invaluable for working under trees, for bare-rooting new plants, for excavating existing shrubs, and for removing that dreadful red clay soil from the 4′ rhododendron. We used it to investigate suspicious root issues — that concrete-like slug encasing the rhody’s root mass, the hollies’ wire baskets, the Japanese maple’s buried root flare and girdling root — and when it wasn’t being used on the transplanting operation, we used it to give a little breathing room to the root flare of a river birch planted on site a few years ago.

On this particular site, which has been intensively gardened for decades, the soil is beautifully dark and rock-free. The air spade had no difficulty blowing it out of planting holes. Even with a rockier soil, an air spade has enough pressure (90 psig) that bare-rooting shrubs takes a relatively short time. A laborer team can generally dig a 4-5′ broadleaf evergreen shrub in minutes. An air spade can do it as quickly or in a few more minutes, depending on soil type — but the amount of root mass saved makes the air spade by far the preferred method, horticulturally.

2. Plywood screens work beautifully to confine the overspray of soil from the spading site. For bare-rooting the already-dug hollies, the landscapers figured out that they could lift each plant into the back of their high-sided truck and spade off the root soil there, which kept the soil contained and the site clean.

3. At a minimum, workers using the air spade or helping with the bare-rooting should wear goggles and a face mask; very fine particles of soil spray everywhere at high pressure, and eyes and lungs should be protected. In rocky or sandy soil, the hazard is greater, and long sleeves and protective visored helmets are a good idea.

4. Never plant China Girl hollies that close together. They have a lush and luxuriant round form, and are determined to grow to that form (shrubs will push to grow into their particular habits — with some, you can push back by hedging them, but it makes sense to pick a variety whose natural habit lends itself to hedge form). Ten hollies had been planted at 3\’ o.c. to make a hedge; when removed from hedge configuration, the plants spread to between seven and nine feet in breadth. These plants now make a contribution to the landscape that they couldn’t in hedge form.

L. couldn’t remember if the original plan, done by another LA, had called for China Girls or for some other holly, and wondered if the contractor might have substituted China Girls for something else. We’ll never know — but we’ll know what to avoid in future.

Conclusion: The planting techniques were first-rate, the plants looked happy, the place looked great. L. and A. are delighted with the results (I know I’ve succeeded when I’ve pleased their artists’ eyes), and Leahy is moving on to do other air spade projects, knowing how well the technique works in a number of different situations. Now we’ll all be watching to see how everything grows; I’m betting they will all thrive.

Company:  Leahy Landscaping of Lynn, MA

Leahy Project Manager: Aisha Lord

Leahy Arborist: Mark Bolcome, MCA

Leahy Foreman: Anibal Marita

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