Fact-checked by Grok 2 weeks ago

Candling

Candling refers to practices in two main contexts: a non-destructive light-transmission inspection technique used to reveal internal structures in translucent materials such as eggs, seeds, and wood; and a horticultural pruning method involving the removal or pinching of new shoots ("candles") on conifer trees to control growth and shape. The term originates from the historical use of candles as a light source in inspection. While applications vary, candling in the poultry industry—examining eggs by shining a bright light through the shell to assess embryo development, fertility, freshness, and defects without breaking them—is the most widespread. This method, dating back centuries, has been standardized in modern agriculture for small-scale incubation and large-scale commercial grading, aiding in identifying viable eggs, removing infertile or dead ones, and ensuring product safety and quality in hatchery management and food processing.^[1]^[2]^[3] The process for egg candling involves holding the egg—typically larger end first, at the air sac—against a high-intensity light in a darkened room to enhance visibility. Manual methods, used in backyard or small hatcheries, employ LED candlers or smartphone flashlights, with gentle rotation to view blood vessels, yolk, and air cell. In commercial settings, automated systems use conveyors, sensors, and lights to grade thousands of eggs hourly under United States Department of Agriculture (USDA) standards. Eggs are candled post-collection for quality or at incubation stages like days 5–7 and 14–18 for chickens to monitor development.^[1]^[3]^[4] Viability indicators during incubation include blood vessel networks and embryo movement by day 5 in fertile eggs, versus translucent "clear" infertile ones or dark rings/masses in dead embryos. Air cell expansion, corresponding to about 13% egg weight loss by hatch due to moisture evaporation, indicates proper humidity; deviations allow condition adjustments. Candling non-viable eggs reduces bacterial risks and boosts hatchability, with optimized systems achieving early embryo mortality under 10%. For table eggs, it evaluates yolk firmness and albumen clarity for USDA grades: AA (firm, high-rising yolk), A (reasonably firm), or B (weaker).^[2]^[1]^[4] The technique extends to other birds like turkeys (candled days 8–10), ducks, and quail, adjusted for incubation periods, though chickens are most common. Interpretation needs experience, as brown eggs' pigmentation can obscure views, sometimes requiring breakout confirmation. LED and digital imaging advancements improve precision for sustainable production.^[1]^[3]^[4] In addition to eggs, light-based candling assesses seed viability (e.g., embryo presence in lily seeds) and wood uniformity for musical instruments by translumination. Separately, in bonsai and landscape design, candling prunes pine and conifer "candles" in spring to promote denser foliage and controlled growth.^[5]^[6]^[7]

History and Etymology

Origins of the Term

The term "candling" originates from the longstanding agricultural practice of using a candle as the primary light source to examine the internal contents of eggs. By holding an egg directly against the flame in a darkened space, the light would pass through the semi-translucent shell, illuminating structures such as the yolk position, air cell size, and any signs of blood vessels or embryonic development, thereby allowing assessment of freshness, fertility, or defects. This manual technique, essential for quality control in pre-industrial poultry farming, gave rise to the name due to the exclusive reliance on candlelight before the advent of electric bulbs.^[8] Historical records indicate that the method emerged in rural European communities as a simple, low-cost way for farmers to evaluate eggs before market distribution or hatching. Documented descriptions of holding eggs to light for inspection appear in early modern texts on natural history and agriculture, underscoring its roots in agrarian economies where visual verification was critical to avoid selling infertile or spoiled products. The process typically occurred in sheds or dimly lit rooms to maximize contrast and visibility, emphasizing its rudimentary, hands-on nature.^[1] Initially confined to small-scale farming in Europe and later adopted in North America, candling reflected the technological limitations of the era, with candles providing the only portable and affordable illumination. Over time, the term persisted even as practitioners transitioned to brighter electric lights in the 20th century, preserving the historical nomenclature tied to its candlelit beginnings.^[9]

Historical Development

The technique of candling originated in the practice of holding eggs against a candle flame in a darkened room to reveal internal contents, such as embryo development or defects, dating back to at least the early modern period.^[8]^[10] By the early 20th century, candling had become a standardized method in commercial egg production across the United States and Europe, coinciding with the establishment of formal grading standards by the United States Department of Agriculture (USDA) in 1923.^[8]^[11] This standardization aligned with the rise of large-scale poultry farming and market demands for graded eggs. In the early 20th century, innovations transitioned candling from candles to brighter, more reliable light sources, including gas lamps that provided steadier illumination and reduced fire risks, followed by electric bulbs around the 1920s that enhanced visibility and inspection speed in commercial settings.^[8]^[12] Electric candlers, often featuring incandescent bulbs, became common by the 1930s, allowing for faster processing in packing houses.^[13] Following World War II, automation revolutionized egg candling in the 1950s, with the introduction of conveyor-belt machines that transported eggs past illuminated stations for rapid, semi-automated inspection, significantly boosting efficiency in the poultry industry.^[14]^[15] Into the 21st century, digital enhancements have further advanced candling, incorporating LED lights for precise, energy-efficient illumination and imaging software for automated analysis of egg contents, improving accuracy in hatcheries while full automation remains prominent in egg processing.^[16]^[17]

Candling as a Light Inspection Method

In Egg Embryology and Quality Control

Candling plays a central role in egg embryology by enabling the detection of fertility through the identification of an early embryo or blastodisc, typically assessed after 5-7 days of incubation for poultry species like chickens.^[1] This process is essential for monitoring embryo development stages, particularly between days 7 and 18, when blood vessels and movement become visible, allowing hatchery managers to evaluate viability and intervene if necessary.^[18] In quality control, candling identifies internal defects such as blood spots, meat spots, or rotten contents, while also grading freshness by measuring air cell size, which expands with age and storage conditions.^[4] The procedure requires placing the egg against or over a bright light source in a darkened environment to backlight the translucent shell, revealing internal structures. Traditionally performed with a candle, it now commonly uses focused LED or halogen lights for clarity, with eggs held steady or rotated to observe shadows from the yolk, albumen, and any embryonic features like veins or blood vessels.^[1] For embryology, candling at 8-10 days provides optimal visibility, though it can begin as early as 3-4 days with white-shelled eggs; in quality grading, eggs are twirled at a 45-degree angle to assess uniformity.^[18]^[4] Distinct observations guide assessments: infertile eggs appear clear with light passing through and a floating yolk shadow, often marked by a discontinuous blastodisc ring; fertile eggs show a dark central embryo mass occupying much of the contents, accompanied by reddish, branching blood vessels that may twitch.^[18] Dead or non-viable embryos are indicated by a blood ring—a circular dark line—or static, darkened vessels without movement; freshness is determined by air cell size, with fresh eggs exhibiting a small, firm cell (≤1/8 inch for USDA AA grade) and stale ones a larger, free-moving cell (>3/16 inch for B grade).^[1]^[4] Defects like small blood spots (≤1/8 inch) may downgrade eggs to B quality, while cracks or diffused spots render them unsuitable for grading.^[4] In poultry hatcheries, candling enhances hatch rates by facilitating the removal of non-viable eggs, which can account for 10-20% of incubated batches, thereby optimizing space, reducing bacterial contamination from decomposing contents, and improving overall embryo survival to 60-90% for fertile eggs.^[19]^[20] It also bolsters food safety in table egg production by excluding contaminated or defective units, a practice scaled for commercial operations processing millions of eggs daily through systematic sampling.^[20] Contemporary advancements feature automated optical candling systems integrating high-resolution cameras and AI for rapid, non-destructive analysis, capable of grading up to 200,000 eggs per hour with over 95% accuracy in defect detection. Recent integrations with in-ovo sexing technologies, adopted in US hatcheries as of 2024, enable early gender identification alongside viability assessment.^[21]^[22] These align with USDA standards, assigning AA, A, or B grades based on air cell depth, yolk outline firmness, white clarity, and interior cleanliness, while minimizing human error in high-volume settings.^[4]

In Seed Viability Testing

Candling serves as a non-destructive optical method to assess seed viability by evaluating the presence and health of the embryo, particularly useful for certain larger, translucent or semi-translucent seeds such as those of lilies and some bulbs, where it helps identify empty, damaged, or immature seeds that would fail to germinate.^[23] This technique determines germination potential by transmitting light through the seed to reveal internal structures, allowing seed handlers to select viable stock for planting or storage without compromising the seed's integrity.^[24] In the procedure, seeds are placed directly over or against a bright light source, such as a light box, LED panel, or even sunlight through a window, within a darkened environment to enhance contrast.^[5] The light illuminates the seed's interior, making translucent viable tissues visible while opaque or hollow areas in non-viable seeds block transmission.^[25] This manual inspection is straightforward for small-scale operations, though digital variants using hyperspectral imaging employ automated scanning with visible/near-infrared light (400–2500 nm) for higher throughput.^[23] Key observations during candling include the embryo appearing as a small, dense, linear structure against the translucent endosperm in viable seeds, while non-viable ones appear uniformly hollow, opaque, or filled with irregular voids.^[25] Fungal infections or insect damage may manifest as dark, irregular spots interrupting light transmission, signaling reduced viability.^[24] The method achieves 80–95% accuracy in predicting germination when correlated with standard tests, making it reliable for pre-sowing evaluations or seed bank curation.^[26] Applications of candling are prominent in lily breeding, where protocols from organizations like the RHS Lily Group require checking for visible embryos before seed donation or propagation to ensure high germination rates.^[27] It is also employed in advanced optical methods for commercial agriculture, with manual methods suiting small-scale horticulture and digital scanners handling large volumes in grain processing.^[23] These uses span botanical research and farming, optimizing resource allocation by discarding infertile seeds early. The advantages of candling lie in its non-destructive nature and cost-effectiveness as an alternative to the tetrazolium (TZ) test, which requires embryo dissection and chemical staining; it provides rapid results without specialized reagents, though modern optical enhancements have improved precision.^[23] Like egg candling, it relies on simple light transmission principles but adapts to plant tissues for viability screening.^[24]

In Wood Assessment for Musical Instruments

In wood assessment for musical instruments, candling serves to verify the uniform thickness and grain quality of soundboards in stringed instruments, optimizing acoustic performance by identifying irregularities that could lead to issues such as wolf tones or diminished resonance.^[6]^[28] Thin spots or flaws in the wood can disrupt vibration patterns, resulting in uneven tonal response, while consistent density ensures balanced sound projection. This non-invasive method allows luthiers to detect variations without compromising the material's integrity. The procedure involves holding thin wood plates, typically spruce or cedar measuring 1.5-2.5 mm in thickness, against a strong yet diffused light source such as a window, lamp, or traditional candle. Areas of uniform thickness transmit light evenly, producing a consistent glow, whereas thicker regions or defects like knots or sap pockets appear darker or patchy. During the carving process, luthiers use candling iteratively to guide thickness graduation, aiming for thinner profiles at the center (around 1-1.5 mm) and progressively thicker edges to achieve optimal vibration balance across the soundboard.^[6]^[29] Key observations focus on achieving an even luminescence without isolated bright or dark patches, indicating ideal structural homogeneity for resonance. This technique originated in Renaissance luthiery, as documented in 15th-century manuscripts, and remains integral to crafting lutes, historical guitars, and classical guitars by modern builders for custom instruments.^[6] Candling's primary benefits include ensuring superior tonal quality through visual mapping of wood density, avoiding destructive testing methods, and complementing auditory techniques like tap-toning, which assesses vibrational modes but lacks candling's direct insight into thickness variations.^[6]^[30]

Candling as a Pruning Technique

In Pine and Conifer Trees

Candling in pine and conifer trees refers to a selective pruning technique that involves pinching or cutting the new spring growth shoots, termed "candles," to regulate tree height, enhance density, and preserve overall shape. These candles are the elongated, resin-coated terminal buds that emerge in spring before needle development. Performed primarily on whorl-branched conifers, this method exploits the plants' growth pattern, where new buds form only at the tips of the current season's shoots, allowing for controlled reshaping without stimulating excessive vertical growth. The procedure is typically carried out in late spring, once the candles have elongated to 2-4 inches but prior to full needle expansion, ensuring the tree retains the ability to produce next year's branches. Gardeners remove approximately 1/2 to 2/3 of each candle's length using thumb-and-finger pinching for precision or sharp hand pruners/shears for larger specimens, while preserving the basal sheath to protect the remaining bud and prevent dieback. Vigorous candles, often found at the tree's apex or in overly robust areas, receive more aggressive cuts (up to 2/3 removal) to curb dominance, whereas weaker shoots are trimmed less severely (around 1/3) to encourage balanced development and avoid stressing the plant. This pruning reduces apical dominance in fast-growing regions, redirecting energy to stimulate lateral bud formation and foster a denser, more compact form. By interrupting the candles' full extension, the technique promotes back-budding along branches, leading to bushier foliage without the need for invasive cuts into older wood. It is particularly effective for maintaining ornamental conifers in landscapes, as it enhances aesthetic proportions while supporting long-term health. The practice targets species like Japanese black pine (Pinus thunbergii), eastern white pine (Pinus strobus), and other pines (Pinus spp.), as well as select whorl-branched conifers such as certain spruces and firs; it is less suitable for random-branched types like cedars, which respond differently to tip pruning. Rooted in Japanese garden traditions during the Edo period (1603–1868), candling is detailed in mid-18th-century manuals such as the Niwaki chōhōki by Kyoto gardener Heisuke, reflecting uekiya (nursery specialists') expertise in tree shaping for aesthetic harmony. Today, it serves as a standard method in global ornamental landscaping to sustain conifer vitality and form.

In Bonsai and Landscape Design

In bonsai cultivation, repeated annual candling of pine species fosters a compact, aged appearance in miniature trees by shortening new growth and promoting denser ramification, effectively mimicking the effects of natural wind-pruning on exposed specimens.^[31] This technique involves pinching or cutting the elongating candles in late spring to early summer, aligning with the tree's growth cycle to balance vigor and refine branch structure without removing entire shoots in single-flush species like Scots pine.^[32] In landscape design, candling controls the size of oversized ornamental conifers, such as those in formal gardens, by reducing dominant candles to redirect energy toward secondary buds and prevent leggy, unbalanced growth in hedges or topiaries.^[33] For instance, at the Seattle Japanese Garden, staff apply candling to approximately 50 pine specimens each spring, snapping tender growth with fingers to maintain distinctive forms and combining it with wiring or tying techniques to guide branches into desired shapes.^[33] This approach is particularly effective for evergreens in temperate climates, where it helps sustain low-maintenance displays by limiting annual extension. Candling holds cultural significance as a core element of Japanese niwaki—the art of styling garden trees—where it emphasizes harmony, restraint, and an illusion of antiquity through careful reduction of growth to evoke natural, weathered silhouettes.^[34] In traditional settings like the Malott Japanese Garden at the Chicago Botanic Garden, annual candling of up to 180 trees enhances pad density and horizontal spread, reflecting a philosophical alignment with nature's balance.^[34] Modern Western adaptations extend these principles to residential landscaping, using candling on species like Pinus bungeana to create cloud-pruned forms that require minimal ongoing intervention while providing year-round structure.^[35] Best practices for candling in these contexts stress moderation to avoid stressing the tree: limit removal to about one-third of candle length per session, particularly on vigorous shoots, while leaving stubs on weaker ones to encourage back-budding.^[31] Following candling, apply balanced fertilization after a brief recovery period—typically resuming four weeks post-procedure for double-flush pines—to support new growth and needle development, especially in temperate regions suitable for species like Scots pine (Pinus sylvestris).^[36] Over-pruning beyond these guidelines can weaken the tree, so practitioners monitor health and vigor before proceeding. A key variation, decandling, involves complete removal of spring candles in mid-summer for double-flush pines like Japanese black pine (Pinus thunbergii), inducing a second flush of shorter growth that extends the effective growing season and further compacts the form in bonsai or niwaki applications.^[36] This technique, timed according to local climate (e.g., late May in cooler areas), enhances ramification but requires robust trees to prevent dieback.^[31]

References

[1]
[PDF] Egg Candling and Breakout Analysis - UC ANR catalog
Candling hatching eggs during incubation and breakout examination of the clear eggs or dead embryos are useful tools for hatchery managers to use in ...
[2]
[PDF] INCUBATION TOPICS – What is egg candling and why you should
Candling is a method used to observe the growth and development of an embryo inside an egg which uses a bright light source behind the egg to show details ...
[3]
What Happens in the Egg? & Candling Eggs
Egg candling is the process of being able to look inside a developing egg with a bright light in order to check out what is going on.
[4]
[PDF] Egg-Grading Manual - Agricultural Marketing Service - USDA
type of candling booth needed for check grading or quali- ty control is illustrated in figure 47. The candling booth walls should be painted with a dark ...
[5]
Candling | Egg Inspection, Quality Control & Safety - Britannica
Oct 11, 2025 · Candling, egg-grading process in which the egg is inspected before a penetrating light in a darkened room for signs of fertility, defects, or freshness.
[6]
Candling Eggs: The Ultimate Guide - Poultry Keeper
The term 'egg candling' comes from the past before electric light bulbs when ... Compare these to your eggs during candling. Mark your eggs with a soft ...
[7]
Candling eggs - The Grovestead
Feb 19, 2015 · Candling simply involves shining a flashlight through the egg to see what's inside. Apparently this was done by candlelight back in the day, hence the name.
[8]
egg candling – In the Vintage Kitchen: Where History Comes To Eat
May 29, 2012 · Tessie's husband, Izzy Horowitz was an egg candler in Brooklyn in the 1920's. Brooklyn and farm fresh eggs are two things you'd never think ...
[9]
History of Lighting - Cir-Kit Concepts
Early lighting included torches and grease lamps. Lighting evolved through Primitive, Classical, Medieval, and Invention periods, with a progression from ...
[10]
How the early egg industry developed | WATTPoultry.com
Jan 9, 2007 · In the 1940s and 1950s, egg producers spent half their time cleaning, sizing and packing eggs. Today, we talk of blood spot detection, imaging ...
[11]
"Candling Room at Maine Egg Producers" - Digital Maine
The candling room of Maine Egg Producers as it was in the early 1950's. The women would twirl four eggs at a time in front of a light.
[12]
[PDF] ista-historical-paper-2008.pdf - International Seed Testing Association
May 19, 2008 · In the ISTA Rules of 1931 it was obligatory to examine two replicates in the purity test. Since 1962 this became an option but still some ...
[13]
Seed Health: Testing and Management - SpringerLink
Feb 22, 2023 · It was Frederick Nobbe, under whose leadership the first seed testing laboratory was established in 1869 in Tharandt, Germany, and this was ...
[14]
Light Optimization for an LED-Based Candling System and ...
Aug 10, 2025 · In this study, an LED-based candling system was designed to automatically judge egg fertility by measuring photo-resistance, which was converted ...
[15]
Non‐destructive optical sensing technologies for advancing the egg ...
Aug 21, 2023 · This review examines the existing non-destructive optical sensing technologies for the egg industry. It provides information and insights on the different ...
[16]
[PDF] candling-eggs-determining-fertility-and-incubation ... - Poultry Science
High percentages of early dead embryos are the result of poor egg handling and storage procedures, poor egg or incubator sanitation, incorrect turning frequency ...
[17]
To Candle or Not to Candle | The Poultry Site
If during candling at day of transfer more than 30 eggs are removed from a setter tray with 150 eggs, add eggs from another tray to ensure each hatcher basket ...
[18]
Importance of Candling of eggs in improving income from Poultry
Management of such eggs in early steps may help in improving the efficiency of hatchery process. Hence, candling process is applied during specific periods in ...
[19]
Advances in Nondestructive Technologies for External Eggshell ...
Sep 17, 2025 · Their equipment, such as the MOBA Omnia series, can process over 200,000 eggs per hour with a crack detection accuracy exceeding 95%, making it ...
[20]
Recent advances in emerging techniques for non-destructive ...
This review focuses on the comparative introduction, development and applications of emerging techniques in the analysis of seed viability.
[21]
Lilium Seeds | Pacific Bulb Society
Apr 7, 2013 · Lilium seed In viable seed an embryo is visible. This observation has led to the technique of "candling" seed, holding it up to a bright light ...
[22]
candling lily seeds, identifying viable seeds [4K] - YouTube
Sep 30, 2024 · Candling seeds is an important step before you donate your seeds to the RHS Lily Group. By putting seeds over a light-box you can see the ...
[23]
Growing lilies from seed - RHS Lily Group
Viable seeds will have an embryo visible as a thin line when held up to the light. Most lily seed is large enough that it can be sown on edge with the embryo ...
[24]
A Reliable Methodology for Determining Seed Viability by Using ...
Mar 8, 2018 · This study investigated the possibility of using visible and near-infrared (VIS/NIR) hyperspectral imaging techniques to discriminate viable ...
[25]
Seed List - RHS Lily Group
Please check seed for viability i.e. that embryos are clearly visible, preferably by candling seed. Please post clearly labelled seed to: G Battle, Oaklands ...
[26]
Building Lute Original Methods - The Lute Society
Building a Renaissance Lute using original methods - a project report by Andrew Atkinson. Originally a series of lectures given at meetings of the Lute Society.
[27]
Need help with wolf tone... - The Acoustic Guitar Forum
Jun 25, 2013 · The wolf tone will be more related to the soundboard design (thickness & bracing) as well as the body volume and sound-hole.
[28]
Classical Guitar Build
Classical Guitar Build. Finished Guitar. Rosette Inlaid in Englemann Spruce. Bracing note. Candling to check soundboard thickness. Back and sides attached.Missing: making | Show results with:making
[29]
What is tap tuning? - The Acoustic Guitar Forum
Feb 2, 2017 · Tap tuning involves the luthier hand scalloping the bracing a little different for each guitar to get optimal tone from the top. He scallops ...
[30]
Care guide for Pine Bonsai species (Pinus)
General information about the Pine Bonsai tree Pine species with two flushes can be decandled in early summer to produce a second flush with shorter candles ...
[31]
https://www.bonsaiempire.com/tree-species/pines
[32]
Gardener's Corner: Pine Candling - Seattle Japanese Garden
Apr 30, 2015 · Simply put, candling is the act of selectively removing or reducing the size of the candle to reduce or restrict the growth of the tree itself.
[33]
Candling in the Japanese Garden | Chicago Botanic Garden
Jun 24, 2014 · In pine trees, these shoots of new growth are called “candles.” When we candle, we break off part of the new growth to stimulate growth from ...
[34]
Training Pine Trees -The Japanese Art of Niwaki - Growing With Plants
Oct 26, 2008 · The book is very informative and it explains the entire technique, history and artcraft of this amazing cultural art.
[35]
Decandling black pine bonsai - an in-depth guide
Jul 22, 2016 · The most efficient approach is to remove all candles on a given day. The one-day approach is appropriate for most pines that are regularly ...