Hickory Explained

Hickory is a common name for trees composing the genus Carya, which includes around 18 species. Five or six species are native to China, Indochina, and India (Assam), as many as twelve are native to the United States, four are found in Mexico, and two to four are native to Canada. A number of hickory species are used for their edible nuts, lumber or other wood and woodcraft products .

Hickories are temperate forest trees with pinnately compound leaves and large nuts. Hickory flowers are small, yellow-green catkins produced in spring. They are wind-pollinated and self-incompatible. The fruit is a globose or oval nut, 2– long and 1.5– diameter, enclosed in a four-valved husk, which splits open at maturity. The nut shell is thick and bony in most species, and thin in a few, notably the pecan (C. illinoinensis); it is divided into two halves, which split apart when the seed germinates.

Etymology

The name "hickory" derives from a Native American word in an Algonquian language (perhaps Powhatan). It is a shortening of pockerchicory, pocohicora, or a similar word, which may be the name for the hickory tree's nut, or may be a milky drink made from such nuts. The genus name Carya is Greek, Ancient (to 1453);: κάρυον, káryon, meaning "nut".

Species and classification

The genus Carya (not to be confused with Careya in the Lecythidaceae) is in the walnut family, Juglandaceae. In the APG system, this family is included in the order Fagales. Several species are known to hybridize, with around nine accepted, named hybrids. Beaked hickory (Annamocarya sinensis) is a species formerly classified as Carya sinensis, but now considered its own genus, Annamocarya.

Asian hickories

Carya sect. Sinocarya

North American hickories

Carya sect. Carya – typical hickories

Carya sect. Apocarya – pecans

Ecology

Hickory is used as a food plant by the larvae of some Lepidoptera species. These include:

The hickory leaf stem gall phylloxera (Phylloxera caryaecaulis) also uses the hickory tree as a food source. Phylloxeridae are related to aphids and have a similarly complex life cycle. Eggs hatch in early spring and the galls quickly form around the developing insects. Phylloxera galls may damage weakened or stressed hickories, but are generally harmless. Deformed leaves and twigs can rain down from the tree in the spring as squirrels break off infected tissue and eat the galls, possibly for the protein content or because the galls are fleshy and tasty to the squirrels. The pecan gall curculio (Conotrachelus elegans) is a true weevil species also found feeding on galls of the hickory leaf stem gall phylloxera.

The banded hickory borer (Knulliana cincta) is also found on hickories.

Evolutionary history

The oldest fossils attributed to Carya are Cretaceous pollen grains from Mexico and New Mexico. Fossil and molecular data suggest the genus Carya may have diversified during the Miocene.[2] Modern Carya first appear in Oligocene strata 34 million years ago. Recent discoveries of Carya fruit fossils further support the hypothesis that the genus has long been a member of Eastern North American landscapes, however its range has contracted and Carya is no longer extant west of the Rocky Mountains.[3] [4]

Fossils of early hickory nuts show simpler, thinner shells than modern species with the exception of pecans, suggesting that the trees gradually developed defenses to rodent seed predation. During this time, the genus had a distribution across the Northern Hemisphere, but the Pleistocene Ice Age beginning 2 million years ago obliterated it from Europe.[5] In Anatolia, the genus appears to have disappeared only in the early Holocene, probably related to human disturbance.[6] The distribution of Carya in North America also contracted and it completely disappeared from the continent west of the Rocky Mountains. Since fossil records show North America as having the largest number of Juglandaceae species, it is likely that the genus originated there and later spread to Europe and Asia.

Fruit

Hickory nuts (Carya spp.), dried
Water:2.65 g
Kj:2749
Protein:12.72 g
Fat:64.37 g
Satfat:7.038 g
Monofat:32.611 g
Polyfat:21.886 g
Ash:2.00 g
Carbs:18.25 g
Fiber:6.4 g
Calcium Mg:61
Copper Mg:0.738
Iron Mg:2.12
Magnesium Mg:173
Phosphorus Mg:336
Potassium Mg:436
Sodium Mg:1
Manganese Mg:4.610
Zinc Mg:4.31
Selenium Ug:8.1
Vitc Mg:2.0
Thiamin Mg:0.867
Riboflavin Mg:0.131
Niacin Mg:0.907
Pantothenic Mg:1.746
Vitb6 Mg:0.192
Folate Ug:40
Vita Iu:131
Tryptophan:0.139 g
Threonine:0.422 g
Isoleucine:0.576 g
Leucine:1.027 g
Lysine:0.497 g
Methionine:0.300 g
Cystine:0.271 g
Phenylalanine:0.713 g
Tyrosine:0.454 g
Valine:0.730 g
Arginine:2.086 g
Histidine:0.389 g
Alanine:0.662 g
Aspartic Acid:1.368 g
Glutamic Acid:2.885 g
Glycine:0.708 g
Proline:0.571 g
Serine:0.806 g
Right:1
Source Usda:1
Note:Link to USDA Database entry

Some fruits are borderline and difficult to categorize. Hickory nuts (Carya) and walnuts (Juglans) in the Juglandaceae family grow within an outer husk; these fruits are sometimes considered to be drupes or drupaceous nuts, rather than true botanical nuts. "Tryma" is a specialized term for such nut-like drupes.[7] [8]

Nutrition

Dried hickory nuts are 3% water, 18% carbohydrates, 13% protein, and 64% fats (table). In a 100 gram (3.5 oz) reference amount, dried hickory nuts supply 657 calories, and are a rich source (20% or more of the Daily Value, DV) of several B vitamins and dietary minerals, especially manganese at 220% DV (table).

Uses

Hickory wood is hard, stiff, dense and shock resistant. There are woods stronger than hickory and woods that are harder, but the combination of strength, toughness, hardness, and stiffness found in hickory wood is not found in any other commercial wood.[9] Hickory is therefore used in a number of items requiring these properties, such as tool handles, bows, wheel spokes, walking sticks, and wood flooring. Baseball bats were formerly made of hickory, but are now more commonly made of ash; however, it is replacing ash as the wood of choice for Scottish shinty sticks. Hickory was also extensively used for the construction of early aircraft.

Due to its grain structure, hickory is more susceptible to moisture absorption than other species of wood, and is therefore more prone to shrinkage, warping or swelling with changes in humidity.[10]

Hickory is also highly prized for wood-burning stoves and chimineas, as its density and high energy content make it an efficient fuel. Hickory wood is also a preferred type for smoking cured meats. In the Southern United States, hickory is popular for cooking barbecue, as hickory grows abundantly in the region and adds flavor to the meat.

An extract from shagbark hickory bark is also used in an edible syrup similar to maple syrup, with a slightly bitter, smoky taste. The Cherokee people would produce a green dye from hickory bark, which they used to dye cloth.[11] When this bark was mixed with maple bark, it produced a yellow dye pigment. The ashes of burnt hickory wood were traditionally used to produce a strong lye (potash) fit for soapmaking.[12]

The nuts of some species are palatable and were used by Cherokee Indians in making Kanuchi soup, while others are bitter and only suitable for animal feed. Shagbark and shellbark hickory, along with pecan, are regarded by some as the finest nut trees. Pecans are the most important nut tree native to North America.

When cultivated for their nuts, clonal (grafted) trees of the same cultivar cannot pollinate each other because of their self-incompatibility. Two or more cultivars must be planted together for successful pollination. Seedlings (grown from hickory nuts) will usually have sufficient genetic variation.

See also

References

External links

Notes and References

  1. Web site: Subordinate Taxa of Carya Nutt. . TROPICOS . Missouri Botanical Garden . 2009-10-19.
  2. Zhang, Jing-Bo . Rui-Qi Li . Xiao-Guo Xiang . Steven R. Manchester . Li Lin . Wei Wang . Jun Wen . Zhi-Duan Chen . Integrated Fossil and Molecular Data Reveal the Biogeographic Diversification of the Eastern Asian-Eastern North American Disjunct Hickory Genus (Carya Nutt.) . . 2013 . 8 . 7 . e70449 . 10.1371/journal.pone.0070449 . 23875028 . 3713062 . 2013PLoSO...870449Z . free .
  3. Huang, Y.J. . Yusheng Liu . M.S. Zavada . New fossil fruits of Carya (Juglandaceae) from the latest Miocene to earliest Pliocene in Tennessee, eastern United States . Journal of Systematics and Evolution . 2014 . 52 . 4 . 508–520 . 10.1111/jse.12085 . 83492234 .
  4. McNair, D.M. . D.Z. Stults . B. Axsmith . M.H. Alford . J.E. Starnes . Preliminary investigation of a diverse megafossil floral assemblage from the middle Miocene of southern Mississippi, USA . . 2019 . 22 . 2 . 10.26879/906 . free .
  5. Orain . R. . Lebreton . V. . Ermolli . E. Russo . Combourieu-Nebout . N. . Sémah . A. -M. . 2013-01-01 . Carya as marker for tree refuges in southern Italy (Boiano basin) at the Middle Pleistocene . Palaeogeography, Palaeoclimatology, Palaeoecology . en . 369 . 295–302 . 10.1016/j.palaeo.2012.10.037 . 2013PPP...369..295O . 0031-0182.
  6. Biltekin . Demet . Popescu . Speranta-Maria . Suc . Jean-Pierre . Quézel . Pierre . Jiménez-Moreno . Gonzalo . Yavuz . Nurdan . Çağatay . M. Namık . 2015-04-01 . Anatolia: A long-time plant refuge area documented by pollen records over the last 23million years . Review of Palaeobotany and Palynology . en . 215 . 1–22 . 10.1016/j.revpalbo.2014.12.004 . 2015RPaPa.215....1B . 0034-6667.
  7. Web site: Identification of Major Fruit Types . www2.palomar.edu . Armstrong . W.P. . 2022-09-19 . 2018-02-19 . https://web.archive.org/web/20180219121930/https://www2.palomar.edu/users/warmstrong/fruitid1.htm . dead .
  8. Web site: Nut Photos . www2.palomar.edu . Armstrong . W.P. . 15 March 2009 . 19 September 2022 . 7 November 2021 . https://web.archive.org/web/20211107151123/https://www2.palomar.edu/users/warmstrong/ecoph8.htm . dead .
  9. Important Trees of Eastern Forests, USDA, 1974
  10. Web site: Shrinking, Warping and Perfect Boards . LignomatUSA . May 2013 . Lignomat.
  11. Book: Foreman . Grant . The Five Civilized Tribes . University of Oklahoma Press . Norman . 1934 . 283–284 . en . 978-0-8061-0923-7.
  12. Mitchell . John . John Mitchell (geographer) . An Account of the Preparation and Uses of the Various Kinds of Pot-Ash . . 45 . 543 . 1748 . 104578 . en .