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Gall

October 10, 2023

This article is about the abnormal growths in plants and animals. For other uses, see Gall (disambiguation).

Galls (from the Latin galla, 'oak-apple') or cecidia (from the Greek kēkidion, anything gushing out) are a kind of swelling growth on the external tissues of plants, fungi, or animals. Plant galls are abnormal outgrowths[1] of plant tissues, similar to benign tumors or warts in animals. They can be caused by various parasites, from viruses, fungi and bacteria, to other plants, insects and mites. Plant galls are often highly organized structures so that the cause of the gall can often be determined without the actual agent being identified. This applies particularly to some insect and mite plant galls. The study of plant galls is known as cecidology.

A crown gall on Kalanchoe infected with Agrobacterium tumefaciens.
Galls can also appear on skeletal animals and in the fossil record. Two galls with perforations on a crinoid stem (Apiocrinites negevensis) from the Middle Jurassic of southern Israel.
Gall from a jade plant (Crassula ovata)

In human pathology, a gall is a raised sore on the skin, usually caused by chafing or rubbing.[2]

Causes of plant galls Edit

Insects and mites Edit

 
Sectioned oak marble gall showing central "cell", inquiline chamber, and exit-hole with a possibly parasitised stunted gall specimen.

Insect galls are the highly distinctive plant structures formed by some herbivorous insects as their own microhabitats. They are plant tissue which is controlled by the insect. Galls act as both the habitat and food source for the maker of the gall. The interior of a gall can contain edible nutritious starch and other tissues. Some galls act as "physiologic sinks", concentrating resources in the gall from the surrounding plant parts.[3] Galls may also provide the insect with physical protection from predators.[4][5]

Insect galls are usually induced by chemicals injected by the larvae of the insects into the plants, and possibly mechanical damage. After the galls are formed, the larvae develop inside until fully grown, when they leave. In order to form galls, the insects must take advantage of the time when plant cell division occurs quickly: the growing season, usually spring in temperate climates, but which is extended in the tropics.

The meristems, where plant cell division occurs, are the usual sites of galls, though insect galls can be found on other parts of the plant, such as the leaves, stalks, branches, buds, roots, and even flowers and fruits. Gall-inducing insects are usually species-specific and sometimes tissue-specific on the plants they gall.

Indicator insects Edit

 
Goldenrod round gall made by the fly Eurosta solidaginis

Gall-inducing insects include gall wasps, gall midges, gall flies (e.g., the goldenrod gall fly), Agromyzidae, aphids (such as Melaphis chinensis, Pemphigus spyrothecae, and Pemphigus betae), scale insects, psyllids, thrips, gall moths (e.g., Epiblema scudderiana), and weevils.[6]

Galls produced by insects and mites include:

  • Ash flower gall: this gall is caused by a small mite that causes irregular distortion of male flowers. The galls are initially green, then dry and turn brown.
  • Ash midrib gall: normally 15–25 mm (12–1 in) long, these galls are succulent and have thick walls. A small cavity within each gall contains one or more small maggots, the larval stages of very small flies called midges. Female midges lay their eggs in very young leaflets during early spring. Gall formation begins soon after the eggs are laid. Specifics of the biology of this insect are not known. The galls probably do not harm tree health.
  • Elm cockscomb gall: these distinct galls, caused by an aphid, are about 25 mm (1 in) long and about 5 mm (14 in) high. The irregular edge of the gall and its red color at maturity account for the common name. The galls dry, harden and turn brown as they age. Aphids may be seen through a slit-like opening in the underside of the gall. This insect has a complex life cycle—it forms galls on elm in early summer, then feeds on grass roots later in the summer. The galls apparently do not cause significant harm to the tree.
  • Hackberry leaf gall: this gall is caused by a small (2.5 mm or 110 in long) aphid-like insect with sucking mouthparts called a jumping plant louse. The adults spend the winter under bark crevices and can invade houses in large numbers in the fall. Females lay eggs over a long period of time beginning when leaves begin to unfold from the buds in the spring. Feeding by the nymphs that hatch from these eggs causes abnormal plant growth that forms a pouch. The psyllids remain inside the galls until they emerge as adults in late summer to early fall. There is one generation each year. Heavy infestations can result in premature leaf drop which over a series of years may affect tree health.
  • Honeylocust pod gall: this gall is caused by a small fly (midge). The sunburst cultivar appears to be very susceptible to this pest. Infested leaves have globular or pod-like distortions that contain one to several small maggots (5 mm or 14 in long). Infestations begin when females lay eggs in young leaflets. There are five or more generations each year. Infested leaves often drop prematurely and repeated damage can kill small branches. New shoots develop at the base of dead twigs. As a result, the natural shape of the tree may be lost.
  • Oak gall: see Oak apple
  • Petiole and stipule galls: thick globe-like galls can develop on leaf petioles and stems. Many of these are caused by insects called phylloxerans which are very similar to aphids. The hard, woody galls may remain on the tree for several years. Usually, there is one generation each year and the insects over winter on the tree in the egg stage.
  • Willow shoot galls: these swellings on shoots, twigs, or leaf petioles, may be caused by small flies (midges) or small wasps (sawflies). The gall increases in size as long as the immature stages are active. They cause no significant injury. The infestation may be reduced by pruning and destroying the galled areas before the adult insect emerges, usually in late summer.
  • Witchhazel gall: this gall is caused by an aphid that passes the winter in eggs laid on twigs of the plant. Feeding by the aphid causes the formation of conical galls on the upper side of the leaf. Each gall, produced by a single aphid, later becomes filled with offspring. Mature aphids with wings leave the galls in late spring and early summer and fly to birch. After several generations there, the insects return to witch hazel to lay the eggs that survive the winter. No galls are formed on the birch.
  • Banksia infructescence galls: microscopic Eriophyid mites (Eriophyidae) commonly cause swellings on young infructescences of Banksia integrifolia and Banksia marginata in south-eastern Australia[7]
 
Galls caused by an Eriophyid mite (Eriophyidae) on Banksia integrifolia infructescence in Melbourne, Australia
See List of insect galls

Fungi Edit

 
Rhododendron ferrugineum infected by an Exobasidium fungus.

Many rust fungi induce gall formation, including western gall rust, which infects a variety of pine trees and cedar-apple rust. Galls are often seen in Millettia pinnata leaves and fruits. Leaf galls appear like tiny clubs; however, flower galls are globose. Exobasidium often induces spectacular galls on its hosts.

The fungus Ustilago esculenta associated with Zizania latifolia, a wild rice, produces an edible gall highly valued as a food source in the Zhejiang and Jiangsu provinces of China.[8]

Bacteria and viruses Edit

Agrobacterium tumefaciens and Pseudomonas savastanoi are examples of gall-causing bacteria. Gall forming virus was found on rice plants in central Thailand in 1979 and named rice gall dwarf. Symptoms consisted of gall formation along leaf blades and sheaths, dark green discoloration, twisted leaf tips and reduced numbers of tillers. Some plants died in the glasshouse in later stages of infection. The causal agent was transmitted by Nephotettix nigropictus after an incubation of two weeks. Polyhedral particles of 65 nm diameter in the cytoplasm of phloem cells were always associated with the disease. No serologic relationship was found between this virus and that of rice dwarf.

Nematodes Edit

Nematodes are microscopic worms that live in the soil. Some nematodes (Meloidogyne species or root-knot nematodes) cause galls on the roots of susceptible plants. The galls are small, individual and beadlike in some hosts. In other plant species galls may be massive accumulations of fleshy tissue more than 25 mm (1 in) in diameter. Some ectoparasitic nematodes (nematodes that live outside the plant in the soil), such as sting and stubby-root nematodes, may cause root tips to swell. Nitrogen-fixing bacteria (Rhizobium species) cause swellings on the roots of most legumes (such as clover, peas and beans). These swellings, called nodules, are easily distinguished from root-knot galls by differences in how they are attached to the root and their contents. Nodules are loosely attached to the root, while root-knot galls originate from infection at the center of the root, so they are an integral part of the root. In addition, fresh Rhizobium nodules have a milky pink-to-brown liquid inside them, while root-knot galls have firmer tissues and contain female root-knot nematodes (creamy white beads less than 1 mm or 132 in in diameter) inside the gall tissues.[citation needed]

Other plants Edit

Mistletoe can form galls on its hosts.

Uses Edit

Galls are rich in resins and tannic acid and have been used widely in the manufacturing of permanent inks (such as iron gall ink) and astringent ointments, in dyeing, and in leather tanning. The Talmud[9] records using gallnuts as part of the tanning process as well as a dye-base for ink.

Medieval Arabic literature records many uses for the gall, called ˁafṣ in Arabic. The Aleppo gall, found on oak trees in northern Syria, was among the most important exports from Syria during this period, with one merchant recording a shipment of galls from Suwaydiyya near Antioch fetching the high price of 4½ dinars per 100 pounds. The primary use of the galls was as a mordant for black dyes; they were also used to make a high-quality ink. The gall was also used as a medication to treat fever and intestinal ailments.[10]

Gallery Edit

See also Edit

References Edit

Notes

  1. ^ "gall(4)", Merriam-Webster Online Dictionary, accessed November 16, 2007: "an abnormal outgrowth of plant tissue usually due to insect or mite parasites or fungi and sometimes forming an important source of tannin".
  2. ^ "gall", medical-dictionary.thefreedictionary.com.
  3. ^ Larson, K. C.; Whitham, T. G. (1991). "Manipulation of food resources by a gall-forming aphid: the physiology of sink-source interactions", Oecologia 88(1): 15–21. doi:10.1007/BF00328398.
  4. ^ Weis, A. E.; Kapelinski, A. (1994). "Variable selection on Eurosta's gall size. II. A path analysis of the ecological factors behind selection", Evolution 48(3): 734–745. doi:10.1111/j.1558-5646.1994.tb01357.x.
  5. ^ Stone, G. N.; Schonrogge, K. (2003) "The adaptive significance of insect gall morphology", Trends in Ecology & Evolution 18(10): 512–522. doi:10.1016/S0169-5347(03)00247-7.
  6. ^ Volovnik, S. V. (2010). "Weevils Lixinae (Coleoptera, Curculionidae) as Gall Formers", Entomological Review, 90(5): 585–590. doi:10.1134/S0013873810050052.
  7. ^ Jones, David L. Elliot, W. Rodger, Jones, Sandra R., & Blake, Trevor L. (2015). "Pests, diseases, ailments and allies of Australian plants : an introduction to some of the good, bad and interesting creatures that you might find in your garden; with aids to their identification, symptoms and recommendations for control". Reed New Holland Publishers Pty Ltd. p. 173.
  8. ^ Terrell, E. E.; Batra, L. R. "Zizania latifolia and Ustilago esculenta, a grass-fungus association", Economic Botany 36(3): 274–285. doi:10.1007/BF02858549.
  9. ^ Bavli, tractate Gittin:19a
  10. ^ Goitein, Shelomo Dov; Sanders, Paula (1967). A Mediterranean Society: Daily life. University of California Press. p. 405. ISBN 0520048695. Retrieved 22 June 2020.

Further reading

  • Blanche, Rosalind (2012). Life in a Gall: The Biology and Ecology of Insects that Live in Plant Galls. Collingwood, Vic.: CSIRO Publishing. ISBN 978-0643106437.
  • Redfern, Margaret (2011). Plant Galls. London: Collins. ISBN 978-0002201445.
  • Russo, Ron (2007). Field Guide to Plant Galls of California and Other Western States. Berkeley, Calif.: Univ. of California Press. ISBN 9780520248854.

External links Edit

 
Wikimedia Commons has media related to Galls.
  • British Plant Gall Society
  • A Field Guide to Plant Galls of the North East U.S.
  • To Be or Not To Be a Gall: The Story of Strange Growths on Plants 2014-03-21 at the Wayback Machine
  • Insect Galls. Brandeis University
  • Galls in Goldenrod, (Solidago)
  • . University of Kentucky Entomology. Archived from the original on 2006-09-13. Retrieved 2006-09-11.
  • Video footage of Scottish Galls

October 10, 2023
gall, this, article, about, abnormal, growths, plants, animals, other, uses, disambiguation, from, latin, galla, apple, cecidia, from, greek, kēkidion, anything, gushing, kind, swelling, growth, external, tissues, plants, fungi, animals, plant, galls, abnormal. This article is about the abnormal growths in plants and animals For other uses see Gall disambiguation Galls from the Latin galla oak apple or cecidia from the Greek kekidion anything gushing out are a kind of swelling growth on the external tissues of plants fungi or animals Plant galls are abnormal outgrowths 1 of plant tissues similar to benign tumors or warts in animals They can be caused by various parasites from viruses fungi and bacteria to other plants insects and mites Plant galls are often highly organized structures so that the cause of the gall can often be determined without the actual agent being identified This applies particularly to some insect and mite plant galls The study of plant galls is known as cecidology A crown gall on Kalanchoe infected with Agrobacterium tumefaciens Galls can also appear on skeletal animals and in the fossil record Two galls with perforations on a crinoid stem Apiocrinites negevensis from the Middle Jurassic of southern Israel Gall from a jade plant Crassula ovata In human pathology a gall is a raised sore on the skin usually caused by chafing or rubbing 2 Contents 1 Causes of plant galls 1 1 Insects and mites 1 1 1 Indicator insects 1 2 Fungi 1 3 Bacteria and viruses 1 4 Nematodes 1 5 Other plants 2 Uses 3 Gallery 4 See also 5 References 6 External linksCauses of plant galls EditInsects and mites Edit nbsp Sectioned oak marble gall showing central cell inquiline chamber and exit hole with a possibly parasitised stunted gall specimen Insect galls are the highly distinctive plant structures formed by some herbivorous insects as their own microhabitats They are plant tissue which is controlled by the insect Galls act as both the habitat and food source for the maker of the gall The interior of a gall can contain edible nutritious starch and other tissues Some galls act as physiologic sinks concentrating resources in the gall from the surrounding plant parts 3 Galls may also provide the insect with physical protection from predators 4 5 Insect galls are usually induced by chemicals injected by the larvae of the insects into the plants and possibly mechanical damage After the galls are formed the larvae develop inside until fully grown when they leave In order to form galls the insects must take advantage of the time when plant cell division occurs quickly the growing season usually spring in temperate climates but which is extended in the tropics The meristems where plant cell division occurs are the usual sites of galls though insect galls can be found on other parts of the plant such as the leaves stalks branches buds roots and even flowers and fruits Gall inducing insects are usually species specific and sometimes tissue specific on the plants they gall Indicator insects Edit nbsp Goldenrod round gall made by the fly Eurosta solidaginisGall inducing insects include gall wasps gall midges gall flies e g the goldenrod gall fly Agromyzidae aphids such as Melaphis chinensis Pemphigus spyrothecae and Pemphigus betae scale insects psyllids thrips gall moths e g Epiblema scudderiana and weevils 6 Galls produced by insects and mites include Ash flower gall this gall is caused by a small mite that causes irregular distortion of male flowers The galls are initially green then dry and turn brown Ash midrib gall normally 15 25 mm 1 2 1 in long these galls are succulent and have thick walls A small cavity within each gall contains one or more small maggots the larval stages of very small flies called midges Female midges lay their eggs in very young leaflets during early spring Gall formation begins soon after the eggs are laid Specifics of the biology of this insect are not known The galls probably do not harm tree health Elm cockscomb gall these distinct galls caused by an aphid are about 25 mm 1 in long and about 5 mm 1 4 in high The irregular edge of the gall and its red color at maturity account for the common name The galls dry harden and turn brown as they age Aphids may be seen through a slit like opening in the underside of the gall This insect has a complex life cycle it forms galls on elm in early summer then feeds on grass roots later in the summer The galls apparently do not cause significant harm to the tree Hackberry leaf gall this gall is caused by a small 2 5 mm or 1 10 in long aphid like insect with sucking mouthparts called a jumping plant louse The adults spend the winter under bark crevices and can invade houses in large numbers in the fall Females lay eggs over a long period of time beginning when leaves begin to unfold from the buds in the spring Feeding by the nymphs that hatch from these eggs causes abnormal plant growth that forms a pouch The psyllids remain inside the galls until they emerge as adults in late summer to early fall There is one generation each year Heavy infestations can result in premature leaf drop which over a series of years may affect tree health Honeylocust pod gall this gall is caused by a small fly midge The sunburst cultivar appears to be very susceptible to this pest Infested leaves have globular or pod like distortions that contain one to several small maggots 5 mm or 1 4 in long Infestations begin when females lay eggs in young leaflets There are five or more generations each year Infested leaves often drop prematurely and repeated damage can kill small branches New shoots develop at the base of dead twigs As a result the natural shape of the tree may be lost Oak gall see Oak apple Petiole and stipule galls thick globe like galls can develop on leaf petioles and stems Many of these are caused by insects called phylloxerans which are very similar to aphids The hard woody galls may remain on the tree for several years Usually there is one generation each year and the insects over winter on the tree in the egg stage Willow shoot galls these swellings on shoots twigs or leaf petioles may be caused by small flies midges or small wasps sawflies The gall increases in size as long as the immature stages are active They cause no significant injury The infestation may be reduced by pruning and destroying the galled areas before the adult insect emerges usually in late summer Witchhazel gall this gall is caused by an aphid that passes the winter in eggs laid on twigs of the plant Feeding by the aphid causes the formation of conical galls on the upper side of the leaf Each gall produced by a single aphid later becomes filled with offspring Mature aphids with wings leave the galls in late spring and early summer and fly to birch After several generations there the insects return to witch hazel to lay the eggs that survive the winter No galls are formed on the birch Banksia infructescence galls microscopic Eriophyid mites Eriophyidae commonly cause swellings on young infructescences of Banksia integrifolia and Banksia marginata in south eastern Australia 7 nbsp Galls caused by an Eriophyid mite Eriophyidae on Banksia integrifolia infructescence in Melbourne AustraliaSee List of insect gallsFungi Edit nbsp Rhododendron ferrugineum infected by an Exobasidium fungus Many rust fungi induce gall formation including western gall rust which infects a variety of pine trees and cedar apple rust Galls are often seen in Millettia pinnata leaves and fruits Leaf galls appear like tiny clubs however flower galls are globose Exobasidium often induces spectacular galls on its hosts The fungus Ustilago esculenta associated with Zizania latifolia a wild rice produces an edible gall highly valued as a food source in the Zhejiang and Jiangsu provinces of China 8 Bacteria and viruses Edit Agrobacterium tumefaciens and Pseudomonas savastanoi are examples of gall causing bacteria Gall forming virus was found on rice plants in central Thailand in 1979 and named rice gall dwarf Symptoms consisted of gall formation along leaf blades and sheaths dark green discoloration twisted leaf tips and reduced numbers of tillers Some plants died in the glasshouse in later stages of infection The causal agent was transmitted by Nephotettix nigropictus after an incubation of two weeks Polyhedral particles of 65 nm diameter in the cytoplasm of phloem cells were always associated with the disease No serologic relationship was found between this virus and that of rice dwarf Nematodes Edit Nematodes are microscopic worms that live in the soil Some nematodes Meloidogyne species or root knot nematodes cause galls on the roots of susceptible plants The galls are small individual and beadlike in some hosts In other plant species galls may be massive accumulations of fleshy tissue more than 25 mm 1 in in diameter Some ectoparasitic nematodes nematodes that live outside the plant in the soil such as sting and stubby root nematodes may cause root tips to swell Nitrogen fixing bacteria Rhizobium species cause swellings on the roots of most legumes such as clover peas and beans These swellings called nodules are easily distinguished from root knot galls by differences in how they are attached to the root and their contents Nodules are loosely attached to the root while root knot galls originate from infection at the center of the root so they are an integral part of the root In addition fresh Rhizobium nodules have a milky pink to brown liquid inside them while root knot galls have firmer tissues and contain female root knot nematodes creamy white beads less than 1 mm or 1 32 in in diameter inside the gall tissues citation needed Other plants Edit Mistletoe can form galls on its hosts Uses EditGalls are rich in resins and tannic acid and have been used widely in the manufacturing of permanent inks such as iron gall ink and astringent ointments in dyeing and in leather tanning The Talmud 9 records using gallnuts as part of the tanning process as well as a dye base for ink Medieval Arabic literature records many uses for the gall called ˁafṣ in Arabic The Aleppo gall found on oak trees in northern Syria was among the most important exports from Syria during this period with one merchant recording a shipment of galls from Suwaydiyya near Antioch fetching the high price of 4 dinars per 100 pounds The primary use of the galls was as a mordant for black dyes they were also used to make a high quality ink The gall was also used as a medication to treat fever and intestinal ailments 10 Gallery Edit nbsp Gall on a maple leaf nbsp Rose bedeguar gall on a wild rose in summer nbsp Oak artichoke gall Andricus fecundator nbsp Knopper gall Andricus quercuscalicis nbsp Knopper gall Andricus quercuscalicis nbsp Neuroterus albipes forma laeviusculus nbsp Eucalyptus leaf gall nbsp Andricus kollari oak gall nbsp Andricus kollari oak gall nbsp Gymnosporangium nbsp Oak marble galls one with a gall fly exit hole and another with Phoma gallarum fungal attack nbsp Red pea gall Cynips divisa on pedunculate oak nbsp Cola nut galls Andricus lignicola on pedunculate oak nbsp Pineapple gall on Sitka spruce caused by Adelges abietis nbsp Developing pineapple pseudocone galls on Norway spruce nbsp Gall of Japanagromyza inferna in Centrosema virginianum nbsp An oak tree with multiple oak apples nbsp Oak apples on an oak tree nbsp Lime nail galls Eriophyes tiliae tiliae nbsp Leaf galls on Rhododendron ferrugineum nbsp Dasineura investita nettle gall nbsp Schizomyia impatientis jewelweed flower gall nbsp Pachypsylla celtidisumbilicus hackberry gall nbsp Neolasioptera boehmeriae false nettle stem gall nbsp Kokkocynips rileyi oak gall nbsp Phylloteras poculum oak galls nbsp Gall on peach tree leaves nbsp Eucalyptus cypellocarpa at The Gap Scenic Reserve Australia nbsp Gall attack on Eucalyptus due to Leptocybe invasa at Acharya N G Ranga Agricultural University nbsp Fruit gall on Actinidia polygamaSee also EditForest pathology Burl Bush coconut Chirosia betuleti Mulga apple Oak apple Oak marble gall Knopper gall Hackberry nipple gall Oak artichoke gall Rose bedeguar gall Pineapple gall Cola nut gall Neuroterus quercusbaccarum common spangle and currant galls Witch s broomReferences EditNotes gall 4 Merriam Webster Online Dictionary accessed November 16 2007 an abnormal outgrowth of plant tissue usually due to insect or mite parasites or fungi and sometimes forming an important source of tannin gall medical dictionary thefreedictionary com Larson K C Whitham T G 1991 Manipulation of food resources by a gall forming aphid the physiology of sink source interactions Oecologia 88 1 15 21 doi 10 1007 BF00328398 Weis A E Kapelinski A 1994 Variable selection on Eurosta s gall size II A path analysis of the ecological factors behind selection Evolution 48 3 734 745 doi 10 1111 j 1558 5646 1994 tb01357 x Stone G N Schonrogge K 2003 The adaptive significance of insect gall morphology Trends in Ecology amp Evolution 18 10 512 522 doi 10 1016 S0169 5347 03 00247 7 Volovnik S V 2010 Weevils Lixinae Coleoptera Curculionidae as Gall Formers Entomological Review 90 5 585 590 doi 10 1134 S0013873810050052 Jones David L Elliot W Rodger Jones Sandra R amp Blake Trevor L 2015 Pests diseases ailments and allies of Australian plants an introduction to some of the good bad and interesting creatures that you might find in your garden with aids to their identification symptoms and recommendations for control Reed New Holland Publishers Pty Ltd p 173 Terrell E E Batra L R Zizania latifolia and Ustilago esculenta a grass fungus association Economic Botany 36 3 274 285 doi 10 1007 BF02858549 Bavli tractate Gittin 19a Goitein Shelomo Dov Sanders Paula 1967 A Mediterranean Society Daily life University of California Press p 405 ISBN 0520048695 Retrieved 22 June 2020 Further reading Blanche Rosalind 2012 Life in a Gall The Biology and Ecology of Insects that Live in Plant Galls Collingwood Vic CSIRO Publishing ISBN 978 0643106437 Redfern Margaret 2011 Plant Galls London Collins ISBN 978 0002201445 Russo Ron 2007 Field Guide to Plant Galls of California and Other Western States Berkeley Calif Univ of California Press ISBN 9780520248854 External links Edit nbsp Wikimedia Commons has media related to Galls British Plant Gall Society A Field Guide to Plant Galls of the North East U S To Be or Not To Be a Gall The Story of Strange Growths on Plants Archived 2014 03 21 at the Wayback Machine Insect Galls Brandeis University Galls in Goldenrod Solidago Common oak galls University of Kentucky Entomology Archived from the original on 2006 09 13 Retrieved 2006 09 11 Video footage of Scottish Galls Retrieved from https en wikipedia org w index php title Gall amp oldid 1168398993, wikipedia, wiki, book, books, library,

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