Structural pruning stands as a critical practice in arboriculture, aimed at guiding the growth and enhancing both the health and aesthetic appeal of trees. This targeted approach not only ensures the longevity of these natural giants but also maximizes their benefits to urban landscapes and private gardens.
The primary objective of structural pruning is to establish and maintain a sound tree architecture through selective branch removal. Properly executed, this technique helps in developing a strong trunk with well-spaced, sturdy branches that are less likely to fail under stress from wind, weight, and other environmental factors. Young trees particularly benefit from structural pruning because it sets the foundation for their future shape and stability, preventing more costly corrective measures in mature trees.
Another significant aspect of structural pruning involves the removal of defects such as crossing branches, co-dominant leaders (branches competing to be the main trunk), or dead and diseased limbs. These actions are crucial for maintaining tree health by minimizing areas where pathogens can enter or pests can thrive. Removing these problematic elements reduces the risk of disease spread and pest infestation, promoting a healthier growing environment.
Beyond its practical benefits in terms of safety and health, structural pruning also greatly enhances a tree's aesthetic value. A well-pruned tree has a balanced appearance that can dramatically improve landscape aesthetics. This not only increases property values but also enriches community green spaces, making them more inviting places for recreation and relaxation.
Moreover, structural pruning contributes positively to the broader environment. Healthy, well-maintained trees are better at carbon sequestration, thus playing an essential role in climate change mitigation. They also improve air quality by filtering pollutants and provide habitats for various wildlife species.
Educating tree care professionals on the techniques and timing of structural pruning is vital for its success. It requires understanding different tree species' growth patterns and responding appropriately to their specific needs throughout various stages of their life cycles.
In conclusion, structural pruning is far more than just cutting branches; it's an art that balances functional integrity with visual grace while ensuring longevity and vitality within our cherished trees. By prioritizing this practice, we not only enhance individual tree profiles but also contribute to healthier urban forests capable of thriving alongside human development.
Structural pruning is a crucial aspect of tree maintenance that ensures the long-term health and aesthetic appeal of trees. While it might seem like a task that could be performed at any time, there are indeed optimal seasons for conducting structural pruning, each bringing its own set of benefits and challenges. Understanding these can greatly enhance not only the effectiveness of the pruning itself but also the overall vitality of the tree.
Spring is often considered one of the best times to undertake structural pruning, especially for deciduous trees. During this season, trees are in a phase of active growth and can heal from wounds more effectively. The sap is flowing strongly, which helps in sealing cuts quickly and reduces the risk of infections or pest invasions. Moreover, without leaves, the structure of the tree is clearly visible, making it easier to make informed decisions about which branches should be removed.
However, spring isn't ideal for all species. Some trees, such as oaks and elms, are better pruned in mid-winter when they are fully dormant. This timing helps prevent the spread of diseases like oak wilt or Dutch elm disease – fungi that are less active during colder months. Pruning these species in winter minimizes sap loss and allows for robust new growth in spring.
Summer pruning has its merits too, particularly for corrective purposes. Once a tree has fully leafed out, it's easier to identify which branches are weak or overly dense. Pruning in summer can help manage these issues by reducing weight on selected branches and improving light penetration and air circulation within the canopy. This is particularly beneficial for fruit trees that require careful shaping to optimize fruit production.
Conversely, fall is generally regarded as the least favorable time for structural pruning due to slower healing processes during this time and increased vulnerability to fungal infections as many fungi spores are abundant and active.
It's clear that while there might be an ideal general timeframe recommended for most trees – late winter or early spring – specific needs may vary based on regional climate conditions and tree species. Consulting with a local arborist can provide tailored advice that considers both environmental factors and individual tree health.
In conclusion, while structural pruning can technically be performed at any time throughout the year, aligning this essential maintenance task with nature's cycles offers substantial benefits. By choosing an optimal season for pruning we not only aid in maintaining our trees' health but also support their growth patterns ensuring their beauty remains intact over years.
Structural pruning is a critical aspect of tree maintenance that focuses on enhancing a tree's framework and promoting its health, safety, and aesthetic appeal. This process involves several key techniques including reduction, removal, and subordination, each serving unique functions in managing tree architecture and stability. Understanding these techniques not only helps in maintaining the visual appeal of landscapes but also ensures the longevity and safety of trees.
The first technique, reduction, involves decreasing the length of a branch or stem to limit the overall size of a tree or to reduce weight at particular points. This is especially crucial for trees that are too large for their immediate environment or those that pose a risk due to overextended limbs. Reduction helps in balancing the canopy, which can minimize the risk of branch failures during high winds or storms. It is often used on younger trees to guide their growth into a desirable form and on mature trees to maintain their structure and health.
Removal, another fundamental technique in structural pruning, refers to the complete elimination of certain branches or stems. This method is employed to get rid of dead, diseased, or structurally weak limbs that could threaten tree health or safety. Removal is also used to clear away branches that interfere with buildings, power lines, or other structures. Furthermore, by thinning out crowded parts of the canopy, this technique allows more light and air to penetrate through the tree, thereby improving overall health.
Subordination is slightly different from reduction; it involves selectively shortening some branches in relation to others to influence the future growth direction and dominance patterns within the tree. This technique helps manage competition among branches so that no single limb becomes disproportionately dominant - which could lead to an unbalanced structure susceptible to damage under stress conditions like high winds.
Employing these techniques requires not only an understanding of tree biology but also an artistic sense as it relates quite closely with sculpting nature for both functional integrity and visual harmony. For instance, when executing these practices one must consider not just immediate effects but also how changes will influence future growth patterns.
In practice, effective structural pruning should begin early in a tree's life so adjustments are less severe and more naturally integrated into its development; however, even mature trees can greatly benefit from well-executed structural pruning by extending their lifespan and enhancing their beauty.
Henceforth, whether it's maintaining a historic city park or ensuring your backyard oak thrives for generations to come – mastering reduction removals; subordination becomes essential tools in any arborist's repertoire ensuring our leafy companions grow healthy strong while adding value security charm our shared environments.
Structural pruning is an essential practice in arboriculture aimed at enhancing a tree’s physical structure, primarily through the selective removal of branches. This critical maintenance task not only ensures the aesthetic appeal of trees but also fortifies their health and safety by mitigating risks associated with limb failure. To perform structural pruning effectively, an array of tools is indispensable, each suited to different aspects and stages of the pruning process.
At the foundational level, hand shears (or pruning shears) are one of the most commonly used tools for structural pruning on young or small trees where precision is paramount. These tools are perfect for making clean cuts on smaller branches, typically up to half an inch in diameter. Hand shears come in various designs such as bypass, which operates like scissors, and anvil types, where a sharp blade closes against a flat edge. The choice between these can depend largely on personal preference and the specific nature of the job.
For slightly larger limbs, generally those up to about two inches in diameter, loppers are the tool of choice. Loppers provide greater leverage than hand shears due to their long handles, which allows for cutting thicker branches with relative ease while still maintaining control over the cut’s placement and angle. Like hand shears, loppers also come in bypass and anvil styles.
When dealing with even larger branches or performing extensive thinning operations high up in a tree’s canopy, a handsaw becomes necessary. Pruning saws have teeth designed to cut on both push and pull strokes for efficiency and ease of use. They make cleaner cuts on larger limbs than loppers can manage without causing unnecessary damage to surrounding bark or other parts of the tree.
In cases involving mature trees or extensive structural modifications, power tools such as chainsaws become essential. Chainsaws allow arborists to quickly work through thick branches and significantly reduce labor intensity compared to manual tools. However, they require skilled handling to ensure safety and minimize potential harm to both the user and tree health. It’s crucial that chainsaws are operated by trained professionals equipped with appropriate safety gear including gloves, goggles or face shields, ear protection, helmets, and protective clothing.
Pole pruners extend the reach of manual saws or powered equipment like chainsaws; these are particularly useful for accessing high branches safely from ground level without resorting immediately to climbing equipment or aerial lifts.
Despite this arsenal of sophisticated equipment available for structural pruning tasks from hand shears all the way up to chainsaws each tool has its unique role ensuring efficacy while preserving or enhancing tree vitality across different scenarios encountered during routine maintenance sessions. Proper selection based upon branch size operational context—whether enhancing form managing weight distribution adjusting mechanical stress points—alongside skillful execution remains key achieving desired outcomes whether maintaining individual backyard specimens managing urban forests large-scale landscape projects alike.
Structural pruning is an essential practice in the care of young trees, serving not only to enhance their aesthetic appeal but also to fortify their structural integrity as they mature. The goal of structural pruning is to develop a tree with a strong trunk and well-spaced, sturdy branches. A properly structured young tree will be better equipped to withstand the stresses of adverse weather and the weight of its own canopy as it grows. This step-by-step guide will walk you through the process of performing structural pruning on young trees.
Understanding the Basics: Before beginning, it's crucial to understand that the best time to prune young trees is during the dormant season when the tree is not actively growing. This typically occurs in late fall through winter. Pruning during this period minimizes stress on the tree and reduces the risk of attracting pests and diseases that are more active during warmer months.
Step 1: Assessing Your Tree Start by taking a good look at your tree's current structure. Identify the leader, which is the main upward-growing branch that forms the tree's vertical structure. In most cases, maintaining a single dominant leader is key to developing a strong trunk.
Step 2: Removing Competing Leaders If there are other branches competing with the main leader, consider removing them. Competing leaders can take resources away from the central trunk and lead to a weaker overall structure. Use sharp, clean pruning shears or saws for larger branches, making cuts close to the branch collar without damaging it.
Step 3: Selecting Scaffold Branches Choose several well-spaced lateral branches around the trunk to form what are known as scaffold branches. These should ideally be spaced at least 18 inches apart along the trunk, ensuring they grow out from different sides for balance. Scaffold branches should also have wide angles of attachment (between 45 and 60 degrees) relative to the trunk for strength.
Step 4: Pruning for Clearance and Safety Remove any lower branches that may interfere with traffic, vehicles, or pedestrians-commonly referred to as raising the crown-especially if your tree is near sidewalks or roadsides. Be sure not only for safety but also for promoting better air circulation around your tree's base.
Step 5: Thinning Out Overcrowded Areas Thin out areas where branches are overcrowded; typically no more than about 25% of a young tree's foliage should be removed in one year. Focus on removing smaller twigs or branches that cross over others or grow inward toward dark areas within the canopy.
Step 6: Final Touches After making major cuts, step back and observe your work from various angles before proceeding with additional cuts. It might help you spot imbalances or overlooked crowded spots more effectively.
Conclusion: Regularly structurally pruning young trees not only encourages them to develop into strong mature trees but also significantly lowers future maintenance costs by reducing potential hazards due to weak limbs breaking off easily under strain from wind or snow loads. Remember always that patience and consistency are key in achieving great results; make it an annual routine! Structural pruning isn't just about aesthetics-it's about fostering healthy growth patterns and ensuring longevity in our cherished green companions.
Structural pruning is a critical aspect of tree maintenance that focuses on enhancing a tree's physical structure, primarily through the careful selection and removal of branches. This technique not only preserves the aesthetic appeal of trees but also bolsters their health and longevity. However, even with the best intentions, common mistakes can occur during structural pruning, potentially leading to significant damage or even premature death of the tree. Understanding these errors and learning how to avoid them is essential for anyone involved in tree care.
One of the most prevalent mistakes in structural pruning is removing too much foliage at once. Trees rely on their leaves for photosynthesis, which is crucial for growth and health. Over-pruning can shock a tree, stunting its growth and weakening its structure. A good rule of thumb is never to remove more than 25% of a tree's crown at one time. When more extensive pruning is necessary, it should be performed over several seasons.
Another frequent error involves the timing of pruning activities. While it might seem convenient to prune at any time of year, each species has an optimal pruning window typically centered around its dormant season when the tree isn't actively growing. Pruning outside this period can expose trees to diseases or pests, as fresh cuts during growth phases can attract harmful agents.
Improper cutting techniques also pose significant risks during structural pruning. One such technique involves leaving stubs after removing branches. Stubs can prevent proper healing and encourage decay because they don't allow the tree to form a protective callus tissue effectively. Instead, cuts should be made just outside the branch collar—the slightly swollen area where a branch meets the trunk—allowing the tree to heal more quickly and cleanly.
Conversely, flush cutting—removing branches right against the trunk—can be equally detrimental. This method strips away the branch collar, opening up large wounds that are difficult for the tree to seal and making them vulnerable to infections and decay agents.
Lastly, neglecting to consider the natural architecture of trees is another oversight often seen in structural pruning. Each species has inherent structural tendencies that should guide pruning decisions; disregarding these can lead to unnatural growth patterns that compromise both aesthetics and stability. For instance, some trees naturally develop strong central leaders (main vertical branches), which should be preserved rather than removed during pruning unless they are damaged.
To avoid these common mistakes in structural pruning:
By incorporating this knowledge into regular maintenance practices, you ensure trees not only survive but thrive in their environments, providing beauty and shade for years to come while avoiding unnecessary harm from well-intentioned but misguided human interventions.
Structural pruning represents a critical practice within arboriculture, aimed at enhancing tree architecture primarily for long-term health and safety. This aspect of tree care is often overlooked but is essential in cultivating resilient urban forests and maintaining individual tree vitality.
Regular structural pruning involves the selective removal of branches to improve a tree's form and strengthen its structure. One of the most significant long-term benefits of this practice is the promotion of a dominant leader, which is particularly crucial for young trees. A dominant central leader helps distribute mechanical stress more evenly throughout the tree, reducing the likelihood of damage during severe weather conditions such as high winds or heavy snowfall.
Additionally, structural pruning reduces potential hazards. By removing weak branches, or those that are dead, diseased, or crossing, we can prevent them from falling unexpectedly and causing damage or injury. This proactive measure not only ensures public safety but also extends the lifespan of trees in managed landscapes.
The aesthetic value provided by well-pruned trees should not be underestimated either. Structurally sound trees tend to have a more balanced appearance and healthier growth patterns, making them more visually appealing. This visual appeal can increase property values and contribute positively to community spaces, enhancing the quality of life for residents and promoting greater environmental stewardship.
Moreover, structurally pruned trees cope better with environmental stresses such as drought or pests. The improved air circulation and sunlight penetration throughout the canopy after thinning dense branches help maintain vigor and reduce susceptibility to diseases and pest infestations. Healthy trees are less likely to succumb to environmental pressures and will continue to thrive, contributing positively to air quality and biodiversity.
Regular structural pruning also fosters earlier maturation of fruiting trees, resulting in better yields due to enhanced light exposure on lower branches through strategic crown thinning. Furthermore, it allows younger plants the energy to focus on establishing a robust root system rather than supporting excessive vegetative growth.
In conclusion, while often undervalued, regular structural pruning offers numerous benefits that extend far beyond mere aesthetics. It plays an indispensable role in ensuring the vitality and longevity of trees within our communities by addressing both safety concerns and biological needs effectively. As such, integrating thoughtful structural pruning into regular landscape management practices serves as an investment into the future health of both individual trees and broader urban forests alike.
An arborist, or (less commonly) arboriculturist, is a professional in the practice of arboriculture, which is the cultivation, management, and study of individual trees, shrubs, vines, and other perennial woody plants in dendrology and horticulture.[citation needed]
Arborists generally focus on the health and safety of individual plants and trees, rather than managing forests or harvesting wood (silviculture or forestry). An arborist's scope of work is therefore distinct from that of either a forester or a logger.[citation needed]
In order for arborists to work near power wires, either additional training is required or they need to be certified as a Qualified Line Clearance Arborist or Utility Arborist (there may be different terminology for various countries). There is a variety of minimum distances that must be kept from power wires depending on voltage, however the common distance for low voltage lines in urban settings is 10 feet (about 3 metres).[1]
Arborists who climb (as not all do) can use a variety of techniques to ascend into the tree. The least invasive, and most popular technique used is to ascend on rope. There are two common methods of climbing, Single Rope System (SRS) and Moving Rope System (MRS). When personal safety is an issue, or the tree is being removed, arborists may use 'spikes', (also known as 'gaffs' or 'spurs') attached to their chainsaw boots with straps to ascend and work. Spikes wound the tree, leaving small holes where each step has been.[citation needed]
An arborist's work may involve very large and complex trees, or ecological communities and their abiotic components in the context of the landscape ecosystem. These may require monitoring and treatment to ensure they are healthy, safe, and suitable to property owners or community standards. This work may include some or all of the following: planting; transplanting; pruning; structural support; preventing, or diagnosing and treating phytopathology or parasitism; preventing or interrupting grazing or predation; installing lightning protection; and removing vegetation deemed as hazardous, an invasive species, a disease vector, or a weed.[citation needed]
Arborists may also plan, consult, write reports and give legal testimony. While some aspects of this work are done on the ground or in an office, much of it is done by arborists who perform tree services and who climb the trees with ropes, harnesses and other equipment. Lifts and cranes may be used too. The work of all arborists is not the same. Some may just provide a consulting service; others may perform climbing, pruning and planting: whilst others may provide a combination of all of these services.[2]
Arborists gain qualifications to practice arboriculture in a variety of ways and some arborists are more qualified than others. Experience working safely and effectively in and around trees is essential. Arborists tend to specialize in one or more disciplines of arboriculture, such as diagnosis and treatment of pests, diseases and nutritional deficiencies in trees, climbing and pruning, cabling and lightning protection, or consultation and report writing. All these disciplines are related to one another and some arborists are very well experienced in all areas of tree work, however not all arborists have the training or experience to properly practice every discipline.[citation needed]
Arborists choose to pursue formal certification, which is available in some countries and varies somewhat by location. An arborist who holds certification in one or more disciplines may be expected to participate in rigorous continuing education requirements to ensure constant improvement of skills and techniques.[citation needed]
In Australia, arboricultural education and training are streamlined countrywide through a multi-disciplinary vocational education, training, and qualification authority called the Australian Qualifications Framework, which offers varying levels of professional qualification. Government institutions including Technical and Further Education TAFE offer Certificate III or a diploma in arboriculture as well as some universities.[3][4] There are also many private institutions covering similar educational framework in each state. Recognition of prior learning is also an option for practicing arborists with 10 or more years of experience with no prior formal training. It allows them to be assessed and fast track their certification.[citation needed]
In France, a qualified arborist must hold a Management of Ornamental Trees certificate, and a qualified arborist climber must hold a Pruning and Care of Trees certificate; both delivered by the French Ministry of Agriculture.[5][6]
In the UK, an arborist can gain qualifications up to and including a master's degree. College-based courses include further education qualifications, such as national certificate, national diploma, while higher education courses in arboriculture include foundation degree, bachelor's degree and master's degree.[citation needed]
In the US, a Certified Arborist (CA) is a professional who has over three years of documented and verified experience and has passed a rigorous written test from the International Society of Arboriculture. Other designations include Municipal Specialist, Utility Specialist and Board Certified Master Arborist (BCMA). The USA and Canada additionally have college-based training which, if passed, will give the certificate of Qualified Arborist. The Qualified Arborist can then be used to offset partial experience towards the Certified Arborist.
Tree Risk Assessment Qualified credential (TRAQ), designed by the International Society of Arboriculture, was launched in 2013. At that time people holding the TRACE credential were transferred over to the TRAQ credential.[citation needed]
In Canada, there are provincially governed apprenticeship programs that allow arborists' to work near power lines upon completion. These apprenticeship programs must meet the provincial reregulations (For example, in B.C. they must meet WorkSafeBC G19.30), and individuals must ensure they meet the requirements of the owner of the power system.[citation needed]
Trees in urban landscape settings are often subject to disturbances, whether human or natural, both above and below ground. They may require care to improve their chances of survival following damage from either biotic or abiotic causes. Arborists can provide appropriate solutions, such as pruning trees for health and good structure, for aesthetic reasons, and to permit people to walk under them (a technique often referred to as "crown raising"), or to keep them away from wires, fences and buildings (a technique referred to as "crown reduction").[7] Timing and methods of treatment depend on the species of tree and the purpose of the work. To determine the best practices, a thorough knowledge of local species and environments is essential.[citation needed]
There can be a vast difference between the techniques and practices of professional arborists and those of inadequately trained tree workers. Some commonly offered "services" are considered unacceptable by modern arboricultural standards and may seriously damage, disfigure, weaken, or even kill trees. One such example is tree topping, lopping, or "hat-racking", where entire tops of trees or main stems are removed, generally by cross-cutting the main stem(s) or leaders, leaving large unsightly stubs. Trees that manage to survive such treatment are left prone to a spectrum of detrimental effects, including vigorous but weakly attached regrowth, pest susceptibility, pathogen intrusion, and internal decay.[8]
Pruning should only be done with a specific purpose in mind. Every cut is a wound, and every leaf lost is removal of photosynthetic potential. Proper pruning can be helpful in many ways, but should always be done with the minimum amount of live tissue removed.[9]
In recent years, research has proven that wound dressings such as paint, tar or other coverings are unnecessary and may harm trees. The coverings may encourage growth of decay-causing fungi. Proper pruning, by cutting through branches at the right location, can do more to limit decay than wound dressing [10]
Chemicals can be applied to trees for insect or disease control through soil application, stem injections or spraying. Compacted or disturbed soils can be improved in various ways.[citation needed]
Arborists can also assess trees to determine the health, structure, safety or feasibility within a landscape and in proximity to humans. Modern arboriculture has progressed in technology and sophistication from practices of the past. Many current practices are based on knowledge gained through recent research, including that of Alex Shigo, considered one "father" of modern arboriculture.[11]
Depending on the jurisdiction, there may be a number of legal issues surrounding the practices of arborists, including boundary issues, public safety issues, "heritage" trees of community value, and "neighbour" issues such as ownership, obstruction of views, impacts of roots crossing boundaries, nuisance problems, disease or insect quarantines, and safety of nearby trees or plants that may be affected.[citation needed]
Arborists are frequently consulted to establish the factual basis of disputes involving trees, or by private property owners seeking to avoid legal liability through the duty of care.[12] Arborists may be asked to assess the value of a tree[13] in the process of an insurance claim for trees damaged or destroyed,[14] or to recover damages resulting from tree theft or vandalism.[15] In cities with tree preservation orders an arborist's evaluation of tree hazard may be required before a property owner may remove a tree, or to assure the protection of trees in development plans and during construction operations. Carrying out work on protected trees and hedges is illegal without express permission from local authorities,[16] and can result in legal action including fines.[17] Homeowners who have entered into contracts with a Homeowner's association (see also Restrictive covenants) may need an arborists' professional opinion of a hazardous condition prior to removing a tree, or may be obligated to assure the protection of the views of neighboring properties prior to planting a tree or in the course of pruning.[18] Arborists may be consulted in forensic investigations where the evidence of a crime can be determined within the growth rings of a tree, for example. Arborists may be engaged by one member of a dispute in order to identify factual information about trees useful to that member of the dispute, or they can be engaged as an expert witness providing unbiased scientific knowledge in a court case. Homeowners associations seeking to write restrictive covenants, or legislative bodies seeking to write laws involving trees, may seek the counsel of arborists in order to avoid future difficulties.[19]
Before undertaking works in the UK, arborists have a legal responsibility to survey trees for wildlife, especially bats, which are given particular legal protection. In addition, any tree in the UK can be covered by a tree preservation order and it is illegal to conduct any work on a tree, including deadwooding or pruning, before permission has been sought from the local council.[citation needed]
The protagonist in Italo Calvino's novel The Baron in the Trees lives life on the ground as a boy and spends the rest of his life swinging from tree to tree in the Italian countryside. As a young man he helps the local fruit farmers by pruning their trees.[citation needed]
Some noteworthy arborists include:
Arboriculture (/ˈɑËrbÉ™rɪˌkÊŒltʃər, É‘ËrˈbÉ”Ër-/)[1] is the cultivation, management, and study of individual trees, shrubs, vines, and other perennial woody plants. The science of arboriculture studies how these plants grow and respond to cultural practices and to their environment. The practice of arboriculture includes cultural techniques such as selection, planting, training, fertilization, pest and pathogen control, pruning, shaping, and removal.
A person who practices or studies arboriculture can be termed an arborist or an arboriculturist. A tree surgeon is more typically someone who is trained in the physical maintenance and manipulation of trees and therefore more a part of the arboriculture process rather than an arborist. Risk management, legal issues, and aesthetic considerations have come to play prominent roles in the practice of arboriculture. Businesses often need to hire arboriculturists to complete "tree hazard surveys" and generally manage the trees on-site to fulfill occupational safety and health obligations.[citation needed]
Arboriculture is primarily focused on individual woody plants and trees maintained for permanent landscape and amenity purposes, usually in gardens, parks or other populated settings, by arborists, for the enjoyment, protection, and benefit of people.[citation needed]
Arboricultural matters are also considered to be within the practice of urban forestry yet the clear and separate divisions are not distinct or discreet.[citation needed]
Tree benefits are the economic, ecological, social and aesthetic use, function purpose, or services of a tree (or group of trees), in its situational context in the landscape.
A tree defect is any feature, condition, or deformity of a tree that indicates weak structure or instability that could contribute to tree failure.
Common types of tree defects:
Codominant stems: two or more stems that grow upward from a single point of origin and compete with one another.
Included bark: bark is incorporated in the joint between two limbs, creating a weak attachment
Dead, diseased, or broken branches:
Cracks
Cavity and hollows: sunken or open areas wherein a tree has suffered injury followed by decay. Further indications include: fungal fruiting structures, insect or animal nests.
Lean: a lean of more than 40% from vertical presents a risk of tree failure
Taper: change in diameter over the length of trunks branches and roots
Epicormic branches (water sprouts in canopy or suckers from root system): often grow in response to major damage or excessive pruning
Roots:
Proper tree installation ensures the long-term viability of the tree and reduces the risk of tree failure.
Quality nursery stock must be used. There must be no visible damage or sign of disease. Ideally the tree should have good crown structure. A healthy root ball should not have circling roots and new fibrous roots should be present at the soil perimeter. Girdling or circling roots should be pruned out. Excess soil above the root flare should be removed immediately, since it present a risk of disease ingress into the trunk.
Appropriate time of year to plant: generally fall or early spring in temperate regions of the northern hemisphere.
Planting hole: the planting hole should be 3 times the width of the root ball. The hole should be dug deep enough that when the root ball is placed on the substrate, the root flare is 3–5cm above the surrounding soil grade. If soil is left against the trunk, it may lead to bark, cambium and wood decay. Angular sides to the planting hole will encourage roots to grow radially from the trunk, rather than circling the planting hole. In urban settings, soil preparation may include the use of:
Tree wells: a zone of mulch can be installed around the tree trunk to: limit root zone competition (from turf or weeds), reduce soil compaction, improve soil structure, conserve moisture, and keep lawn equipment at a distance. No more than 5–10cm of mulch should be used to avoid suffocating the roots. Mulch must be kept approximately 20cm from the trunk to avoid burying the root flare. With city trees additional tree well preparation includes:
Tree grates/grill and frames: limit compaction on root zone and mechanical damage to roots and trunk
Root barriers: forces roots to grow down under surface asphalt/concrete/pavers to limit infrastructure damage from roots
Staking: newly planted, immature trees should be staked for one growing season to allow for the root system to establish. Staking for longer than one season should only be considered in situations where the root system has failed to establish sufficient structural support. Guy wires can be used for larger, newly planted trees. Care must be used to avoid stem girdling from the support system ties.
Irrigation: irrigation infrastructure may be installed to ensure a regular water supply throughout the lifetime of the tree. Wicking beds are an underground reservoir from which water is wicked into soil. Watering bags may be temporarily installed around tree stakes to provide water until the root system becomes established. Permeable paving allows for water infiltration in paved urban settings, such as parks and walkways.
Within the United Kingdom trees are considered as a material consideration within the town planning system and may be conserved as amenity landscape[2] features.
The role of the Arborist or Local Government Arboricultural Officer is likely to have a great effect on such matters. Identification of trees of high quality which may have extensive longevity is a key element in the preservation of trees.
Urban and rural trees may benefit from statutory protection under the Town and Country Planning[3] system. Such protection can result in the conservation and improvement of the urban forest as well as rural settlements.
Historically the profession divides into the operational and professional areas. These might be further subdivided into the private and public sectors. The profession is broadly considered as having one trade body known as the Arboricultural Association, although the Institute of Chartered Foresters offers a route for professional recognition and chartered arboriculturist status.
The qualifications associated with the industry range from vocational to Doctorate. Arboriculture is a comparatively young industry.
Lithia Springs may refer to:
We recently had five large pine trees taken down in our front yard. We had three bids from different tree companies. We also wanted the stumps ground as well as chasing roots above ground. Rudy was fantastic and his workers were very skilled and the clean up was exceptional. We would highly recommend them and not hesitate to use them again.
Used Rudy and All In Tree for numerous things over the last year and a half. Pricing is Competitive. Very responsive to calls and tests. I like that they're insured. Did what he said what he was going to do and when he said he was going to do it. A couple of things didn't meet my expectations and he immediately came out and made it right. I have recommended to multiple other people.
Update! 10/10/23 After they helped me last month, All in Tree Service has again saved the day! A couple of large trees washed down the creek on my property recently and one of them was lodged against the pipes that go from my house to the street. There were other large tree trunks in the creek as well and also one wedged against the supports for my bridge. The All In team went to work and within a couple of hours had everything cleaned up and removed. The pipes and the bridge are safe! I recommend this team wholeheartedly. They care about what they do and it shows. Thank you! I’m very grateful. This team exemplifies professionalism. The before and after pictures tell a great story. September 2023 I recently was fortunate enough to find Rudy and Yaremi of All In Tree Services. A very large and very high limb on a big oak tree was hanging after a storm. It was a danger to me, to my dogs and to the fence below it. I had never met Rudy and Yaremi before. They were the first to call me back when I started my search for a reliable tree service. They clearly wanted the business so I gave them a chance. I’m so glad I did. They were very impressive! Their strategy and teamwork were incredible. Clearly they are very experienced at this kind of work. I took some pictures but I wish I had filmed the whole thing. It was amazing. They roped off the limb so it would not fall on anything or anyone. Then they quickly got the limb cut and safely on the ground and helped to clear up the debris. I am extremely happy with their service and with the friendly and professional manner with which they conducted themselves. I have already recommended them to my neighbors and I strongly encourage anyone who needs tree services to call them.
All professional service. Timely, efficient, friendly. I had big old dead trees that I feared daily were going to come down. I called them in an emergency and they came the very next morning, no problem, no excuses. The guys were about service and me as a customer. They saw what I needed and went above and beyond to make sure I was a satisfied customer. I am a satisfied customer. I will use this company again and again. Thank you Rudy.