Difference between revisions of "Quercus"

Linnaeus

Sp. Pl. 2: 994. 175.

,

Gen. Pl. ed. 5, 431. 1754.

Common names: Oak chêne
Etymology: Classical Latin for the English oak, Quercus robur, from some central European language
Treatment appears in FNA Volume 3.
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|title=Sp. Pl.
 
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|title=Gen. Pl. ed.
 
|title=Gen. Pl. ed.
 
|place=5, 431. 1754
 
|place=5, 431. 1754
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--><span class="statement" id="st-d0_s0" data-properties="tree duration;tree duration;tree architecture;shrub duration;shrub duration;shrub architecture"><b>Trees </b>or shrubs, evergreen or winter-deciduous, sometimes rhizomatous.</span> <span class="statement" id="st-d0_s1" data-properties="terminal bud shape;terminal bud shape;terminal bud shape;terminal bud shape;terminal bud shape;terminal bud shape;terminal bud shape;terminal bud shape;terminal bud shape;terminal bud shape;scale arrangement"><b>Terminal </b>buds spheric to ovoid, terete or angled, all scales imbricate.</span> <span class="statement" id="st-d0_s2" data-properties="stipule duration;stipule prominence"><b>Leaves:</b> stipules deciduous and inconspicuous (except in Quercus sadleriana).</span> <span class="statement" id="st-d0_s3" data-properties="leaf-blade shape;leaf-blade shape;leaf-blade width;leaf-blade texture;margin shape;margin shape;margin shape;margin shape;margin shape;secondary-vein architecture;secondary-vein arrangement;secondary-vein architecture;secondary-vein architecture;margin position relational"><b>Leaf-</b>blade lobed or unlobed, thin or leathery, margins entire, toothed, or awned-toothed, secondary-veins either unbranched, ± parallel, extending to margin, or branching and anastomosing before reaching margin.</span> <span class="statement" id="st-d0_s4" data-properties="inflorescence reproduction;inflorescence arrangement or growth form;growth life cycle"><b>Inflorescences </b>unisexual, in axils of leaves or bud-scales, usually clustered at base of new growth;</span> <span class="statement" id="st-d0_s5" data-properties="inflorescence architecture;inflorescence architecture or arrangement;inflorescence architecture">staminate inflorescences lax, spicate;</span> <span class="statement" id="st-d0_s6" data-properties="inflorescence architecture;inflorescence fragility;lateral cupule quantity;lateral cupule architecture">pistillate inflorescences usually stiff, with terminal cupule and sometimes 1-several sessile, lateral cupules.</span> <span class="statement" id="st-d0_s7" data-properties="flower architecture;sepal fusion"><b>Staminate </b>flowers: sepals connate;</span> <span class="statement" id="st-d0_s8" data-properties="flower architecture;stamen atypical quantity;stamen atypical quantity;stamen quantity;tuft position relational;hair pubescence">stamens (2-) 6 (-12), surrounding tuft of silky hairs (apparently a reduced pistillode).</span> <span class="statement" id="st-d0_s9" data-properties="flower architecture;flower quantity"><b>Pistillate </b>flower 1 per cupule;</span> <span class="statement" id="st-d0_s10" data-properties="sepal fusion">sepals connate;</span> <span class="statement" id="st-d0_s11" data-properties="style atypical quantity;style quantity">carpels and styles 3 (-6).</span> <span class="statement" id="st-d0_s12" data-properties="fruit duration;fruit duration;fruit duration"><b>Fruits:</b> maturation annual or biennial;</span> <span class="statement" id="st-d0_s13" data-properties="cup shape;cup architecture or pubescence;scale arrangement;scale size;scale orientation;scale shape">cup variously shaped (saucer to cup or bowl to goblet-shaped), without indication of valves, covering base of nut (rarely whole nut), scaly, scales imbricate or reduced to tubercles, not or weakly reflexed, never hooked;</span> <span class="statement" id="st-d0_s14" data-properties="">nut 1 per cup, round in cross-section, not winged.</span> <span class="statement" id="st-d0_s15" data-properties="nut quantity;nut shape;nut architecture;x chromosome quantity">x = 12.</span><!--
+
--><span class="statement" id="st-undefined" data-properties=""><b>Trees </b>or shrubs, evergreen or winter-deciduous, sometimes rhizomatous. <b>Terminal</b> buds spheric to ovoid, terete or angled, all scales imbricate. <b>Leaves</b>: stipules deciduous and inconspicuous (except in <i>Quercus sadleriana</i>). <b>Leaf</b> blade lobed or unlobed, thin or leathery, margins entire, toothed, or awned-toothed, secondary veins either unbranched, ± parallel, extending to margin, or branching and anastomosing before reaching margin. <b>Inflorescences</b> unisexual, in axils of leaves or bud scales, usually clustered at base of new growth; staminate inflorescences lax, spicate; pistillate inflorescences usually stiff, with terminal cupule and sometimes 1-several sessile, lateral cupules. <b>Staminate</b> flowers: sepals connate; stamens (2-)6(-12), surrounding tuft of silky hairs (apparently a reduced pistillode). <b>Pistillate</b> flower 1 per cupule; sepals connate; carpels and styles 3(-6). <b>Fruits</b>: maturation annual or biennial; cup variously shaped (saucer- to cup- or bowl- to goblet-shaped), without indication of valves, covering base of nut (rarely whole nut), scaly, scales imbricate or reduced to tubercles, not or weakly reflexed, never hooked; nut 1 per cup, round in cross section, not winged. <b>x</b> = 12.</span><!--
  
 
-->{{Treatment/Body
 
-->{{Treatment/Body
|distribution=North America;Mexico;West Indies;Central America;South America (Colombia only);Eurasia;n Africa
+
|distribution=North America;Mexico;West Indies;Central America;South America (Colombia only);Eurasia;n Africa.
 
|discussion=<p>Species ca. 400 (90 in the flora).</p><!--
 
|discussion=<p>Species ca. 400 (90 in the flora).</p><!--
--><p>Quercus is without doubt one of the most important woody genera of the Northern Hemisphere. Historically, oaks have been an important source of fuel, fodder, and building materials throughout their range. Other products include tannins and dyes, and oak bark and leaves were often used for tanning leather. Acorns were historically an important food for indigenous people in North America, Central America, Europe, and Asia. In some areas, acorn consumption is still important, but in general, because of the intense preparation necessary to remove tannins and strong flavor of acorn products, they have fallen out of use as human food in developed areas. They do remain, however, an important mast for wildlife and domesticated animals in many rural areas.</p><!--
+
--><p><i>Quercus</i> is without doubt one of the most important woody genera of the Northern Hemisphere. Historically, oaks have been an important source of fuel, fodder, and building materials throughout their range. Other products include tannins and dyes, and oak bark and leaves were often used for tanning leather. Acorns were historically an important food for indigenous people in North America, Central America, Europe, and Asia. In some areas, acorn consumption is still important, but in general, because of the intense preparation necessary to remove tannins and strong flavor of acorn products, they have fallen out of use as human food in developed areas. They do remain, however, an important mast for wildlife and domesticated animals in many rural areas.</p><!--
--><p>Among the most important diagnostic characters within Quercus, and particularly the white oak group (Quercus sect. Quercus), are features of the foliar trichomes. Often these can be seen with a 10× or 15× hand lens; higher magnifications are sometimes required and are useful particularly when characters for a species or complex are first studied and mastered for later use in the field. Although these microscopic characters may seem intimidating, the alternative characters of leaf shape and dentition, so often used in the field, are unreliable in many cases. The large number of misidentified specimens in herbaria that can be easily identified properly with the use of trichome characters illustrates this point. Additionally, many specimens are encountered, both in field and herbarium, that lack fruit or have only immature fruit. Very few species require mature fruit for proper diagnosis; most can be adequately identified with a representative selection of mature sun leaves attached, if possible, to twigs with mature buds. The combination of leaf vestiture, form of the margin (entire, lobed, toothed, spinose), twig vestiture, and bud form and vestiture constitute the majority of diagnostic features minimally required at species level.</p><!--
+
--><p>Among the most important diagnostic characters within <i>Quercus</i>, and particularly the white oak group (<i>Quercus </i>sect.<i> Quercus</i>), are features of the foliar trichomes. Often these can be seen with a 10× or 15× hand lens; higher magnifications are sometimes required and are useful particularly when characters for a species or complex are first studied and mastered for later use in the field. Although these microscopic characters may seem intimidating, the alternative characters of leaf shape and dentition, so often used in the field, are unreliable in many cases. The large number of misidentified specimens in herbaria that can be easily identified properly with the use of trichome characters illustrates this point. Additionally, many specimens are encountered, both in field and herbarium, that lack fruit or have only immature fruit. Very few species require mature fruit for proper diagnosis; most can be adequately identified with a representative selection of mature sun leaves attached, if possible, to twigs with mature buds. The combination of leaf vestiture, form of the margin (entire, lobed, toothed, spinose), twig vestiture, and bud form and vestiture constitute the majority of diagnostic features minimally required at species level.</p><!--
--><p>Staminate floral and inflorescence characters have not been used to any significant extent in the taxonomy of Quercus. Immature, flowering material is often difficult to identify with certainty, and floral features such as number and form of sepals, number of stamens, and pubescence of flowers or floral rachises seem to vary independently of species affinity within many groups. Because of these problems, descriptions of staminate features are excluded in this treatment as unreliable and of little diagnostic value. When collecting flowering oaks, make a point of gathering fallen fruit and mature leaves carefully from the ground, if available, and revisit such populations again when mature material is available to verify identifications.</p><!--
+
--><p>Staminate floral and inflorescence characters have not been used to any significant extent in the taxonomy of <i>Quercus</i>. Immature, flowering material is often difficult to identify with certainty, and floral features such as number and form of sepals, number of stamens, and pubescence of flowers or floral rachises seem to vary independently of species affinity within many groups. Because of these problems, descriptions of staminate features are excluded in this treatment as unreliable and of little diagnostic value. When collecting flowering oaks, make a point of gathering fallen fruit and mature leaves carefully from the ground, if available, and revisit such populations again when mature material is available to verify identifications.</p><!--
--><p>The character of acorn maturation in the first year (annual maturation) or second year (biennial maturation) after pollination is commonly used to differentiate major groups within Quercus. All of the North American white oaks have annual maturation; all of the Protobalanus group have biennial maturation; and the vast majority of red oaks have biennial maturation, with one eastern North American and a few western species with annual maturation. In the field, this character can be observed throughout the growing season by examining a sample of twigs from the same tree. If developing fruits exhibit a single size class and are found only on the current year's growth, maturation is annual; if the developing fruits exhibit two size classes with small pistillate flowers on new growth and larger developing fruit on the previous year's twigs, maturation is biennial. In Quercus sect. Protobalanus, biennial maturation may be mistaken for annual maturation because all of the species are fully evergreen, and often the twigs bearing fruit do not produce new growth in the second year after pollination. In such cases, careful examination of a broad sample of twigs from within one tree and throughout a population will verify biennial maturation. Herbarium specimens are sometimes inadequate for this determination.</p><!--
+
--><p>The character of acorn maturation in the first year (annual maturation) or second year (biennial maturation) after pollination is commonly used to differentiate major groups within <i>Quercus</i>. All of the North American white oaks have annual maturation; all of the Protobalanus group have biennial maturation; and the vast majority of red oaks have biennial maturation, with one eastern North American and a few western species with annual maturation. In the field, this character can be observed throughout the growing season by examining a sample of twigs from the same tree. If developing fruits exhibit a single size class and are found only on the current year's growth, maturation is annual; if the developing fruits exhibit two size classes with small pistillate flowers on new growth and larger developing fruit on the previous year's twigs, maturation is biennial. In <i>Quercus </i>sect.<i> Protobalanus</i>, biennial maturation may be mistaken for annual maturation because all of the species are fully evergreen, and often the twigs bearing fruit do not produce new growth in the second year after pollination. In such cases, careful examination of a broad sample of twigs from within one tree and throughout a population will verify biennial maturation. Herbarium specimens are sometimes inadequate for this determination.</p><!--
--><p>Hybridization among species of Quercus has been widely documented and even more widely suspected. An astounding number of hybrid combinations have been reported in the literature, and many of these have been given species names, either before or after their hybrid status was known (E. J. Palmer 1948). Hybrids are known to occur in the wild only between members of the same section, and attempts at artificial crosses between species from different sections or subgenera within Quercus have failed with very few exceptions (W. P. Cottam et al. 1982).</p><!--
+
--><p>Hybridization among species of <i>Quercus</i> has been widely documented and even more widely suspected. An astounding number of hybrid combinations have been reported in the literature, and many of these have been given species names, either before or after their hybrid status was known (E. J. Palmer 1948). Hybrids are known to occur in the wild only between members of the same section, and attempts at artificial crosses between species from different sections or subgenera within <i>Quercus</i> have failed with very few exceptions (W. P. Cottam et al. 1982).</p><!--
 
--><p>Hybridization in most cases results in solitary unusual trees or scattered clusters of intermediate individuals (J. W. Hardin 1975). In some cases, however, populations of fairly broad distribution and extreme variability, often with a majority of intermediate types, may occur. Such instances occur in both the red oak and white oak groups, and to a lesser extent in the Protobalanus group.</p><!--
 
--><p>Hybridization in most cases results in solitary unusual trees or scattered clusters of intermediate individuals (J. W. Hardin 1975). In some cases, however, populations of fairly broad distribution and extreme variability, often with a majority of intermediate types, may occur. Such instances occur in both the red oak and white oak groups, and to a lesser extent in the Protobalanus group.</p><!--
 
--><p>When dealing with a suspected hybrid, therefore, one should first consider the possibility of intraspecific variation or environmental plasticity, and then seek parentage among sympatric members of the same section. Because of the almost infinite number of possible hybrid combinations, and the myriad names applied to them, only those that appear to be prominent either locally or in widespread areas are dealt with here. The interested reader is referred to various discussions of oak hybridization in the literature (e.g., E. J. Palmer 1948; J. W. Hardin 1975).</p>
 
--><p>When dealing with a suspected hybrid, therefore, one should first consider the possibility of intraspecific variation or environmental plasticity, and then seek parentage among sympatric members of the same section. Because of the almost infinite number of possible hybrid combinations, and the myriad names applied to them, only those that appear to be prominent either locally or in widespread areas are dealt with here. The interested reader is referred to various discussions of oak hybridization in the literature (e.g., E. J. Palmer 1948; J. W. Hardin 1975).</p>
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|basionyms=
 
|basionyms=
 
|family=Fagaceae
 
|family=Fagaceae
|distribution=North America;Mexico;West Indies;Central America;South America (Colombia only);Eurasia;n Africa
+
|distribution=North America;Mexico;West Indies;Central America;South America (Colombia only);Eurasia;n Africa.
 
|reference=hunt1989a;muller1951a;muller1961a;nixon1993a;nixon1993b;palmer1948a;sargent1918a;tillson1942a;trelease1924a
 
|reference=hunt1989a;muller1951a;muller1961a;nixon1993a;nixon1993b;palmer1948a;sargent1918a;tillson1942a;trelease1924a
 
|publication title=Sp. Pl.;Gen. Pl. ed.
 
|publication title=Sp. Pl.;Gen. Pl. ed.
 
|publication year=;1754
 
|publication year=;1754
 
|special status=
 
|special status=
|source xml=https://jpend@bitbucket.org/aafc-mbb/fna-fine-grained-xml.git/src/287ef3db526bd807d435a3c7423ef2df1e951227/V3/V3_974.xml
+
|source xml=https://bitbucket.org/aafc-mbb/fna-data-curation/src/2e0870ddd59836b60bcf96646a41e87ea5a5943a/coarse_grained_fna_xml/V3/V3_974.xml
 
|genus=Quercus
 
|genus=Quercus
|cup architecture or pubescence=scaly
 
|cup shape=variously--shaped
 
|flower architecture=pistillate;staminate;staminate
 
|flower quantity=1
 
|fruit duration=biennial;annual;maturation
 
|growth life cycle=new
 
|hair pubescence=silky
 
|inflorescence architecture=pistillate;spicate;staminate
 
|inflorescence architecture or arrangement=lax
 
|inflorescence arrangement or growth form=clustered
 
|inflorescence fragility=stiff
 
|inflorescence reproduction=unisexual
 
|lateral cupule architecture=sessile
 
|lateral cupule quantity=1;several
 
|leaf-blade shape=unlobed;lobed
 
|leaf-blade texture=leathery
 
|leaf-blade width=thin
 
|margin position relational=reaching
 
|margin shape=awned-toothed;toothed;awned-toothed;toothed;entire
 
|nut architecture=not winged
 
|nut quantity=1
 
|nut shape=round
 
|scale arrangement=imbricate;imbricate
 
|scale orientation=reflexed
 
|scale shape=hooked
 
|scale size=reduced
 
|secondary-vein architecture=anastomosing;branching;unbranched
 
|secondary-vein arrangement=parallel
 
|sepal fusion=connate;connate
 
|shrub architecture=rhizomatous
 
|shrub duration=winter-deciduous;evergreen
 
|stamen atypical quantity=6;12
 
|stamen quantity=6
 
|stipule duration=deciduous
 
|stipule prominence=inconspicuous
 
|style atypical quantity=3;6
 
|style quantity=3
 
|terminal bud shape=spheric;ovoid terete or angled
 
|tree architecture=rhizomatous
 
|tree duration=winter-deciduous;evergreen
 
|tuft position relational=surrounding
 
|x chromosome quantity=12
 
 
}}<!--
 
}}<!--
  
 
-->[[Category:Treatment]][[Category:Fagaceae]]
 
-->[[Category:Treatment]][[Category:Fagaceae]]

Latest revision as of 21:52, 5 November 2020

Trees or shrubs, evergreen or winter-deciduous, sometimes rhizomatous. Terminal buds spheric to ovoid, terete or angled, all scales imbricate. Leaves: stipules deciduous and inconspicuous (except in Quercus sadleriana). Leaf blade lobed or unlobed, thin or leathery, margins entire, toothed, or awned-toothed, secondary veins either unbranched, ± parallel, extending to margin, or branching and anastomosing before reaching margin. Inflorescences unisexual, in axils of leaves or bud scales, usually clustered at base of new growth; staminate inflorescences lax, spicate; pistillate inflorescences usually stiff, with terminal cupule and sometimes 1-several sessile, lateral cupules. Staminate flowers: sepals connate; stamens (2-)6(-12), surrounding tuft of silky hairs (apparently a reduced pistillode). Pistillate flower 1 per cupule; sepals connate; carpels and styles 3(-6). Fruits: maturation annual or biennial; cup variously shaped (saucer- to cup- or bowl- to goblet-shaped), without indication of valves, covering base of nut (rarely whole nut), scaly, scales imbricate or reduced to tubercles, not or weakly reflexed, never hooked; nut 1 per cup, round in cross section, not winged. x = 12.

Distribution

North America, Mexico, West Indies, Central America, South America (Colombia only), Eurasia, n Africa.

Discussion

Species ca. 400 (90 in the flora).

Quercus is without doubt one of the most important woody genera of the Northern Hemisphere. Historically, oaks have been an important source of fuel, fodder, and building materials throughout their range. Other products include tannins and dyes, and oak bark and leaves were often used for tanning leather. Acorns were historically an important food for indigenous people in North America, Central America, Europe, and Asia. In some areas, acorn consumption is still important, but in general, because of the intense preparation necessary to remove tannins and strong flavor of acorn products, they have fallen out of use as human food in developed areas. They do remain, however, an important mast for wildlife and domesticated animals in many rural areas.

Among the most important diagnostic characters within Quercus, and particularly the white oak group (Quercus sect. Quercus), are features of the foliar trichomes. Often these can be seen with a 10× or 15× hand lens; higher magnifications are sometimes required and are useful particularly when characters for a species or complex are first studied and mastered for later use in the field. Although these microscopic characters may seem intimidating, the alternative characters of leaf shape and dentition, so often used in the field, are unreliable in many cases. The large number of misidentified specimens in herbaria that can be easily identified properly with the use of trichome characters illustrates this point. Additionally, many specimens are encountered, both in field and herbarium, that lack fruit or have only immature fruit. Very few species require mature fruit for proper diagnosis; most can be adequately identified with a representative selection of mature sun leaves attached, if possible, to twigs with mature buds. The combination of leaf vestiture, form of the margin (entire, lobed, toothed, spinose), twig vestiture, and bud form and vestiture constitute the majority of diagnostic features minimally required at species level.

Staminate floral and inflorescence characters have not been used to any significant extent in the taxonomy of Quercus. Immature, flowering material is often difficult to identify with certainty, and floral features such as number and form of sepals, number of stamens, and pubescence of flowers or floral rachises seem to vary independently of species affinity within many groups. Because of these problems, descriptions of staminate features are excluded in this treatment as unreliable and of little diagnostic value. When collecting flowering oaks, make a point of gathering fallen fruit and mature leaves carefully from the ground, if available, and revisit such populations again when mature material is available to verify identifications.

The character of acorn maturation in the first year (annual maturation) or second year (biennial maturation) after pollination is commonly used to differentiate major groups within Quercus. All of the North American white oaks have annual maturation; all of the Protobalanus group have biennial maturation; and the vast majority of red oaks have biennial maturation, with one eastern North American and a few western species with annual maturation. In the field, this character can be observed throughout the growing season by examining a sample of twigs from the same tree. If developing fruits exhibit a single size class and are found only on the current year's growth, maturation is annual; if the developing fruits exhibit two size classes with small pistillate flowers on new growth and larger developing fruit on the previous year's twigs, maturation is biennial. In Quercus sect. Protobalanus, biennial maturation may be mistaken for annual maturation because all of the species are fully evergreen, and often the twigs bearing fruit do not produce new growth in the second year after pollination. In such cases, careful examination of a broad sample of twigs from within one tree and throughout a population will verify biennial maturation. Herbarium specimens are sometimes inadequate for this determination.

Hybridization among species of Quercus has been widely documented and even more widely suspected. An astounding number of hybrid combinations have been reported in the literature, and many of these have been given species names, either before or after their hybrid status was known (E. J. Palmer 1948). Hybrids are known to occur in the wild only between members of the same section, and attempts at artificial crosses between species from different sections or subgenera within Quercus have failed with very few exceptions (W. P. Cottam et al. 1982).

Hybridization in most cases results in solitary unusual trees or scattered clusters of intermediate individuals (J. W. Hardin 1975). In some cases, however, populations of fairly broad distribution and extreme variability, often with a majority of intermediate types, may occur. Such instances occur in both the red oak and white oak groups, and to a lesser extent in the Protobalanus group.

When dealing with a suspected hybrid, therefore, one should first consider the possibility of intraspecific variation or environmental plasticity, and then seek parentage among sympatric members of the same section. Because of the almost infinite number of possible hybrid combinations, and the myriad names applied to them, only those that appear to be prominent either locally or in widespread areas are dealt with here. The interested reader is referred to various discussions of oak hybridization in the literature (e.g., E. J. Palmer 1948; J. W. Hardin 1975).

Key

1 Mature bark smooth or deeply furrowed (but see also Q. montana), not scaly or papery; cup scales flattened, never tuberculate, never embedded in tomentum; leaf blade if lobed then with awned teeth, if entire then often with bristle at apex; endocarp densely tomentose or silky over entire inner surface of nut. Sect. Lobatae
1 Mature bark scaly or papery, rarely deeply furrowed; cup scales thickened, tuberculate (with darkened or hairy callous at base of each scale), or embedded in tomentum; leaf blade if lobed without awned teeth, if unlobed without bristle at apex, merely mucronate; endocarp glabrous or somewhat sparsely and irregularly hairy, not densely tomentose over entire inner surface of nut. > 2
2 Acorn maturation biennial, nut requiring 2 seasons to mature; cup scalesembedded in tawny or glandular tomentum, only scale tips visible; plants evergreen, leaves leathery, abaxially glaucous; California, Oregon, and Arizona. Sect. Protobalanus
2 Acorn maturation annual, nut requiring 1 growing season to mature; cup scales not embedded in tawny or glandular tomentum, although scales may be tomentose; plants variously evergreen or deciduous; widespread. Sect. Quercus
... more about "Quercus"
Kevin C. Nixon +
Linnaeus +
Oak +  and chêne +
North America +, Mexico +, West Indies +, Central America +, South America (Colombia only) +, Eurasia +  and n Africa. +
Classical Latin for the English oak, Quercus robur, from some central European language +
Sp. Pl. +  and Gen. Pl. ed. +
hunt1989a +, muller1951a +, muller1961a +, nixon1993a +, nixon1993b +, palmer1948a +, sargent1918a +, tillson1942a +  and trelease1924a +
Quercus +
Fagaceae +