Misplaced Pages

Saguaro

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.
(Redirected from Saguaro cacti) Species of cactus in the Sonoran Desert This article is about the cactus. For the Palm OS software, see Saguaro (Palm OS). For the baseball team, see Surprise Saguaros.

Saguaro
Conservation status

Least Concern  (IUCN 3.1)
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Order: Caryophyllales
Family: Cactaceae
Subfamily: Cactoideae
Tribe: Echinocereeae
Genus: Carnegiea
Britton & Rose
Species: C. gigantea
Binomial name
Carnegiea gigantea
(Engelm.) Britton & Rose
Natural range of Carnegiea gigantea
Synonyms
  • Cereus giganteus Engelm.
  • Pilocereus engelmannii Lem.
  • Pilocereus giganteus Rumpler
Example Of Old Growth Saguaro Cactus
Old growth saguaro

The saguaro (/səˈ(ɡ)wɑːroʊ/ sə-(G)WAR-oh, Spanish: [saˈɣwaɾo]; Carnegiea gigantea) is a tree-like cactus species in the monotypic genus Carnegiea that can grow to be over 12 meters (40 feet) tall. It is native to the Sonoran Desert in Arizona, the Mexican state of Sonora, and the Whipple Mountains and Imperial County areas of California. The saguaro blossom is the state wildflower of Arizona. Its scientific name is given in honor of Andrew Carnegie. In 1933, Saguaro National Park, near Tucson, Arizona, was designated to help protect this species and its habitat.

Some saguaros are cristate or "crested" due to fasciation.
A house sparrow nesting on a saguaro cactus

Saguaros have a relatively long lifespan, often exceeding 150 years. They may grow their first side arm around 75–100 years of age, but some never grow any arms. Arms are developed to increase the plant's reproductive capacity, as more apices lead to more flowers and fruit. A saguaro can absorb and store considerable amounts of rainwater, visibly expanding in the process, while slowly using the stored water as needed. This characteristic enables the saguaro to survive during periods of drought. It is a keystone species, and provides food and habitat to a large number of species.

Saguaros have been a source of food and shelter for humans for thousands of years. Their sweet red fleshed fruits are turned into syrup by native peoples, such as the Tohono Oʼodham and Pima. Their ribs are used as building materials in the wood-poor deserts. The saguaro cactus is a common image in Mexican and Arizonan culture, and American Southwest films.

Description

The saguaro is a columnar cactus that grows notable branches, usually referred to as arms. Over 50 arms may grow on one plant, with one specimen having 78 arms. Saguaros grow from 3–16 m (10–52 ft) tall, and up to 75 cm (30 in) in diameter. They are slow growing, and routinely live 150 to 200 years. They are the largest cactus in the United States.

A many armed saguaro in Tucson, AZ. Woman for scale.

The growth rate of this cactus is strongly dependent on precipitation; saguaros in drier western Arizona grow only half as fast as those in and around Tucson. Saguaros grow slowly from seed, and may be only 6.4 mm (1⁄4 in) tall after two years. Cuttings rarely root, and when they do, they do not go through the juvenile growth phase, which gives a different appearance. Since 2014, the National Register of Champion Trees listed the largest known living saguaro in the United States in Maricopa County, Arizona, measuring 13.8 m (45 ft 3 in) high with a girth of 3.1 m (10 ft 2 in); it has an estimated age of 200 years and survived damage in the 2005 Cave Creek Complex Fire. The tallest saguaro ever measured was an armless specimen found near Cave Creek, Arizona. It was 78 ft (23.8 m) in height before it was toppled in 1986 by a windstorm. Saguaros are stem succulents and can hold large amounts of water; when rain is plentiful and the saguaro is fully hydrated, it can weigh between 1,500 and 2,200 kg (3,200 and 4,800 lb).

Estimated age of saguaros based on their height
Height Age (years)
0.5 feet (0.15 m) 9
1.0 foot (0.30 m) 13
5.0 feet (1.5 m) 27
10.0 feet (3.0 m) 41
20.0 feet (6.1 m) 83
25.0 feet (7.6 m) 107
30.0 feet (9.1 m) 131
35.0 feet (10.7 m) 157

Saguaros have a very large root network that can extend up to 30 m (100 ft), and long taproots of up to 1 m (3 ft 3 in) deep.

Saguaros may take between 20 and 50 years to reach a height of 1 m (3 ft 3 in). Individual stomatal guard cells and medulla cells can live and function for as long as 150 years, possibly the longest living of all cells, except possibly nerve cells in some tortoises.

As a cactus, it uses crassulacean acid metabolism photosynthesis, which confers high levels of water-use efficiency. This allows the saguaro to transpire only at night, minimizing daytime water loss.

A saguaro without arms is called a "spear".

Some saguaros grow in rare formations called a cristate, or "crested" saguaro. This growth formation is believed to be found in one in roughly 10,000 saguaros, with 2,743 known crested saguaros documented. The crest formation, caused by fasciation, creates a seam of abnormal growth along the top or top of the arm of the saguaro.

Ribs

Saguaro ribs outside Tucson AZ, These cactus ribs are about 2 m tall.

Inside the saguaro, many "ribs" of wood form something like a skeleton, with the individual ribs being as long as the cactus itself and up to a few centimeters in diameter. The rib wood itself is also relatively dense, with dry ribs having a solid density around 430 kg/m (27 lb/cu ft), which made the ribs useful to indigenous peoples as a building material. While the ribs of dead plants are not protected by the Arizona native plant law, the Arizona Department of Agriculture has released a memo discussing when written permission is needed before harvesting them because of the importance of the decomposition of cactus remains in maintaining desert soil fertility.

The composition of the ribs is similar to that of hardwoods.

Spines

Saguaro spines

The spines on a saguaro are extremely sharp and can grow to 7 cm (3 in) long, and up to 1 mm (1⁄32 in) per day. When held up to the light or bisected, alternating light and dark bands transverse to the long axis of spines are visible. These bands have been correlated to daily growth. In columnar cacti, spines almost always grow in areoles that originate at the apex of the plant. A spine stops growing in its first season. Areoles are moved to the side and the apex continues to grow upward. Thus, older spines are toward the base of a columnar cactus and newer spines are near the apex. A 2007 study examined the relationship of carbon and oxygen isotope ratios in the tissues of spines of an individual to its climate and photosynthetic history (acanthochronology).

The spines may cause significant injury to animals; one paper reported that a bighorn sheep skull had been penetrated by a saguaro spine after the sheep collided with a saguaro. They can also cause severe injury to humans, being as sharp and nearly as strong as steel needles. Their long, unbarbed nature means that partially embedded spines can be easily removed, but their relative length can complicate injuries. The spines can puncture deeply, and if broken off, can leave splinters of spine deep in the tissue that can be difficult to remove. Fully embedded spikes are also difficult to remove. Such injuries do not usually result in infection, though, as the cactus spines are generally aseptic. However, spines that remain embedded may cause inflammatory granuloma.

Flowers

Saguaro flowers

The white, waxy flowers appear in April through June, opening well after sunset and closing in midafternoon. They continue to produce nectar after sunrise. Flowers are self-incompatible, thus requiring cross-pollination. Large quantities of pollen are required for complete pollination because many ovules are present. This pollen is produced by the extremely numerous stamens, which in one notable case totaled 3482 in a single flower. A well-pollinated fruit contains several thousand tiny seeds.

Pollination is considered relatively generalized in that multiple species can produce effective pollination when some populations are excluded. Main pollinators are honey bees, bats, and white-winged doves. In most, but not all studies, diurnal pollinators contributed more than nocturnal ones. Honey bees were the greatest contributors. Other diurnal pollinators are birds such as Costa's hummingbird, the black-chinned hummingbird, the broad-billed hummingbird, the hooded oriole, Scott's oriole, the Gila woodpecker, the gilded flicker, the verdin, and the house finch according to studies that examined the relative contributions of diurnal pollinators.

The primary nocturnal pollinator is the lesser long-nosed bat, feeding on the nectar. Several floral characteristics are geared toward bat pollination (chiropterophily): nocturnal opening of the flowers, nocturnal maturation of pollen, very rich nectar, position high above ground, durable blooms that can withstand a bat's weight, and fragrance emitted at night. Claw marks on the flower indicate pollination by a bat.

Flowers grow 8.6–12.4 cm (3.4–4.9 in) long, and are open for less than 24 hours. Since they form only at the top of the plant and the tips of branches, saguaros growing numerous branches is reproductively advantageous. Flowers open sequentially, with plants averaging four flowers open per day over a bloom period lasting a month. In Southern Arizona, saguaros begin flowering around May 3 and peak on June 4. A decline in bat populations causes more daytime flower openings, which favors other pollinators.

Fruit

House finch perched atop fruits at the tip of a saguaro

The ruby red fruits are 6 to 9 cm (2+1⁄2 to 3+1⁄2 in) long and ripen in June, each containing around 2000 seeds, plus sweet, fleshy connective tissue.

The fruits are often out of reach and are harvested using a pole (made of two or three saguaro ribs) 4.5 to 9 m (15 to 30 ft) long, to the end of which cross-pieces, which can be made of saguaro rib, catclaw, or creosote bush, are attached. This pole is used to hook the fruits or knock them free.

Saguaro seeds are small and short-lived. Although they germinate easily, predation and lack of moisture prevent all but about 1% of seeds from successful germination. Seeds must wait 12–14 months before germination; lack of water during this period drastically reduces seedling survival. The existence of nurse plants is critical to seedling establishment. Palo verde trees and triangle bursage represent important nurse species. They act by regulating temperature extremes, increasing soil nutrients, and reducing evapotranspiration, among others. While nurse plants reduce summer temperature maxima by as much as 18 °C (32 °F), they are more important in raising winter minimum temperatures, as extended frosts limit the range of saguaros.

Native American Indians of the Southwest would make bread from the ground seeds of saguaro.

Genome

The saguaro genome is around 1 billion base pairs long. Sequencing has revealed that the genome of the saguaro's chloroplast is the smallest known among nonparasitic flowering plants. Like several other highly specialized plant taxa, such as the carnivorous Genlisea and parasitic Cuscuta, the saguaro has lost the ndh plastid genes, which codes for production of NADPH dehydrogenase pathway, but unlike those taxa, the saguaro remains fully autotrophic; i.e. it does not eat or steal part of its food. The saguaro is remarkable for the scale and completeness of gene loss; essentially no traces of the 11 ndh genes remain in the plastid. The genes appear to have been copied to the nuclear DNA and mitochondrial DNA, but those copies are non-functional. How the saguaro thrives in a high stress environment without working copies of this fairly important gene remains unknown, but it is possible that the functions of the ndh genes have been taken on by another pathway.

Taxonomy

Carnegiea gigantea is the only species in the monotypic genus Carnegiea. The first description of the species was made by William H. Emory in 1848, during his surveys along the pre-Gadsden Purchase United States-Mexican border. This description allowed cactus expert George Engelmann to formally name it, during his work on the United States and Mexican Boundary Survey, published in 1859. The next major taxonomic treatment came from The Cactaceae, the seminal work on cactus by Nathaniel Lord Britton and Joseph Nelson Rose.

What tribe Carnegiea gigantea belongs to is a matter of taxonomic dispute. A molecular analysis of the cactus family in 2010 placed the saguaro in the Echinocereinae. The ARS Germplasm Resources Information Network places it in the Echinocereeae.

The generic name honors businessman and philanthropist Andrew Carnegie. The specific epithet gigantea refers to its formidable size.

Distribution and habitat

Saguaros in their natural habitat in Ímuris, Sonora.

The Saguaro is endemic to the Sonoran Desert and is found primarily in western Sonora in Mexico, and in western Arizona in the US. There are only 30 known wild saguaros found in southeastern California. Elevation is a limiting factor to its environment, as the saguaro is sensitive to extended frost or cold temperatures. No confirmed specimens of wild saguaros have been found anywhere in Nevada, New Mexico, Texas, Colorado, Utah, nor in the high deserts of northern Arizona. The northern limits of their range are the Hualapai Mountains in Arizona. They are the northernmost columnar cacti in the Americas.

Ecology

The saguaro is a keystone species, and provides food, shelter, and protection to hundreds of other species. Every stage of the saguaro's life sustains a significant number of species, from seedling to after its death.

As food for wildlife

The saguaro provides voluminous amounts of pollen, nectar, and fruits. The fruits are eaten by the white-winged dove and ants, so that seeds rarely escape to germinate. White-winged doves are important pollinators, visiting blooms more often than any other bird species. For desert white-winged doves, 60% or more of their diet is saguaro-based. Their breeding cycle coincides with that of the saguaro blooming.

Nests

Gila woodpeckers and gilded flickers create holes in the cactus to make nests, which are later used by other birds, such as elf owls, purple martins, and house finches. Gilded flickers excavate larger holes higher on the stem compared to Gila woodpeckers. The resulting nest cavity is deep, and the parents and young are entirely hidden from view. The saguaro creates callus tissue on the wound. When the saguaro dies and its soft flesh rots, the callus remains as a so-called saguaro boot, which was used by natives for storage.

Gila woodpeckers (Melanerpes uropygialis) create new nest holes each season rather than reuse the old ones, leaving convenient nest holes for other birds, such as elf owls, tyrant flycatchers, and wrens. In recent years, early-breeding aggressive non-native birds have taken over the nests, to the detriment of elf owls that breed and nest later. In 2020, a bald eagle was found nesting in a saguaro for the first time since 1937.

Carbon sequestration

Saguaros transform significant amounts of the carbon in carbon dioxide into the mineral calcium carbonate when they die. Through the formation of a mineral, cacti transfer carbon from the earth's biological cycle to its geological cycle. This form of carbon sequestration is a terrestrial equivalent to oceanic sequestration by corals and shellfish.

Conservation

6-foot (1.8 m) man standing next to a large Saguaro at Saguaro National Park
6-foot (1.8 m) man, Saguaro National Park

Harming or vandalizing a saguaro in any manner, such as shooting them (sometimes known as "cactus plugging") is illegal by state law in Arizona. When houses or highways are built, special permits must be obtained to move or destroy any saguaro affected. Exceptions to this general understanding exist; for example, a private landowner whose property is 10 acres (4 hectares) or less, where the initial construction has already occurred, may remove a saguaro from the property. This is common when the cactus falls over in a storm, its location interferes with a house addition, or it becomes a potential hazard to humans.

In 1982, a man was killed after damaging a saguaro. David Grundman was shooting and poking at a saguaro cactus in an effort to make it fall. An arm of the cactus, weighing 230 kg (500 lb), fell onto him, crushing him and his car. The trunk of the cactus then also fell on him. The Austin Lounge Lizards wrote the song "Saguaro" about this death.

Contrary to published statements, no law mandates prison sentences of 25 years for cutting a cactus down; however, it is considered a class-four felony with a possible 3-year, 9-month maximum sentence.

Invasive species, such as buffelgrass and Sahara mustard, pose significant threats to the Sonoran Desert ecosystem by increasing the rate of fires. Buffelgrass outcompetes saguaros for water, and grows densely. It is also extremely flammable, but survives fire easily due to deep root systems. Saguaros did not evolve in an environment with frequent fires, thus are not adapted to fire survival. Most Sonoran desert ecosystems have a fire return interval greater than 250 years; buffelgrass thrives at fire return intervals of two to three years. This has led to the reshaping of the Sonoran Desert ecosystem and threatens the survival of the saguaro.

Climate change may threaten saguaros and their ecosystems, as deserts are particularly susceptible to climate effects. Rising daytime and nighttime temperatures will reduce the water use efficiency of saguaros, forcing them to use more water and making them more likely to die during drought periods.

Uses

Maricopa women gathering saguaro fruits, photo by Edward S. Curtis, 1907

Ethnobotany

The utility of the saguaro is well known to Native Americans such as the Tohono O'odham, Pima, and Seri peoples, who still use nearly every part of the plant. The fruit and seeds are edible, being consumed fresh and dried, and made into preserves and drinks. The Tohono O'odham use long sticks to harvest the fruits, which are then made into a variety of products, including jams, syrups, and wine.

The Tohono O'odham begin their harvest in June. A pair of saguaro ribs, about 6 m (20 ft) long, are bundled together to make a harvesting tool called a kuibit. The Tohono O'odham traditionally reduce the freshly harvested fruit into a thick syrup through several hours of boiling, as the fresh fruit does not keep for long. Four kilograms (9 pounds) of fruit will yield about 1 liter (1⁄4 U.S. gallon) of syrup. Copious volumes of fruit are harvested; an example harvest in 1929 yielded 45,000 kg (99,000 lb) among 600 families. At the end of the harvest, each family would contribute a small amount of syrup to a communal stock that would be fermented by the medicine man. This was cause for rainmaking celebrations: Stories would be told, there was much dancing, and songs would be sung. Each man would drink some of the saguaro wine. The resulting intoxicated state was seen as holy, and any dreams it brought on were considered portentous.

  • The seeds are ground into meal or eaten raw, but the raw seeds are mostly indigestible. They are also pressed for their oils. They also have minor use in the tanning of leather. In modern times, these uses have declined, and the seeds are now mainly used as chicken feed.
  • The ribs of the dead saguaro were used for construction and other purposes by Native Americans. The Tohono O'odham use it for making fences and furniture. The ribs are also used as livestock fodder.
  • The old bird nests resist the elements and are gathered by Native Americans for use as storage vessels. Cactus boots, excavated by birds and taken from dead saguaros have been used by native peoples as water containers.

The saguaro features prominently in indigenous folklore and religions. Reports of saguaro use date back to the Coronado expeditions of 1540–1542, which noted its use in winemaking.

Culture

Arizona made the saguaro blossom its territorial flower on March 13, 1901, and on March 16, 1931, it became the state flower.

The saguaro is often used as an emblem in commercials and logos that attempt to convey a sense of the Southwest. Notably, no naturally occurring saguaros are found within 400 kilometers (250 miles) of El Paso, Texas, but the silhouette is found on the label of Old El Paso brand products. Though the geographic anomaly has lessened in recent years, Western films once enthusiastically placed saguaros in the Monument Valley of Arizona (north of their native range), as well as New Mexico, Utah, and Texas.

America West Airlines, and later U.S. Airways after their merger in 2007, used the call sign "CACTUS" for radio communication on flights. America West was based in Phoenix, AZ, and "cactus" was chosen as a tribute to the saguaro cacti growing in the Phoenix area.

Gallery

  • A crested saguaro Silhouette at sunset
    A crested saguaro
    Silhouette at sunset
  • Saguaro towering over a 6 ft (1.8 m) man Saguaro towering over a 6 ft (1.8 m) man
  • Mature five-armed in flower Mature five-armed in flower
  • Snow-covered saguaro near Tucson Snow-covered saguaro near Tucson
  • Needles, Paradise Valley, Arizona Needles, Paradise Valley, Arizona
  • Flowers, Scottsdale, Arizona Flowers, Scottsdale, Arizona
  • The bare wooden ribs of a dead saguaro The bare wooden ribs of a dead saguaro
  • ”Grand-daddy”, the largest saguaro ever recorded, died in the early 1990s ”Grand-daddy”, the largest saguaro ever recorded, died in the early 1990s
  • Saguaro in blossom in springtime Saguaro in blossom in springtime

Footnotes

  1. ^ Although they do not use them immediately, waiting first for the sap to harden, Gila woodpeckers excavate cavities in cacti and trees as nesting sites. Females typically lay two broods a year of three to five eggs, which incubate for 14 days.
    Once abandoned, the cavities are occupied by reptiles, rodents, and small birds like kestrels, elf owls, flycatchers, and wrens.
    In the desert, the woodpeckers perform the important ecological function of removing unhealthy flesh from the saguaro cactus. Some insects on which it feeds carry diseases, harmless to the bird, which damages the cactus and leaves discolorations. The marks signal larvae to the bird, and as it excavates the insects, it also cuts away the diseased tissue. As the sap hardens, the cactus is healed, and the excavation becomes a convenient nesting site. — Nature Conservancy
  2. Cavities in saguaro cactuses in the Southwest are common. Both gilded flickers and Gila woodpeckers make these cavities for nesting, but they often choose different locations on the cactus. The stouter bills of the gilded flickers allow them to cut cavities through the wooden ribs near the top of the cactus where the ribs converge.
    Gila woodpeckers stay at midlevel on the cactus where the ribs are separated enough to cut a cavity between them. Cavities in saguaros are cut out by these birds the year before they are inhabited. The excavated cactus secretes a fluid that hardens into a scab, thus preventing water loss, which could kill the cactus, as well as waterproofing the inside of the nest cavity. — Elbroch, Marks & Boretos (2001), p. 311

References

  1. Burquez Montijo, A.; Butterworth, C.; Baker, M.; Felger, R.S. (2017). "Carnegiea gigantea". IUCN Red List of Threatened Species. 2017: e.T152495A121476885. doi:10.2305/IUCN.UK.2017-3.RLTS.T152495A121476885.en. Retrieved November 19, 2021.
  2. "Carnegiea gigantea (Engelm.) Britton & Rose". Plants of the World Online. Royal Botanic Gardens, Kew. Retrieved November 30, 2020.
  3. "Carnegiea Britton & Rose". Plants of the World Online. Royal Botanic Gardens, Kew. Retrieved November 30, 2020.
  4. "Carnegiea gigantea (Engelm.) Britton & Rose". Tropicos. Missouri Botanical Garden. Retrieved September 19, 2014.
  5. "saguaro". Merriam-Webster.com Dictionary. Merriam-Webster. Retrieved January 14, 2024.
  6. "Saguaro with 78 arms is named 'Shiva'". KGUN 9. June 24, 2021. Retrieved March 21, 2022.
  7. ^ Pavek, Diane S. (1993). "Carnegiea gigantea". U.S. Forest Service Fire Effects Information System. U.S. Department of Agriculture, US Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Retrieved October 2, 2019.
  8. ^ "Saguaro cactus fact sheet". desertmuseum.org. Retrieved March 27, 2019.
  9. A Natural History of the Sonoran Desert. Arizona-Sonora Desert Museum (revised and updated ed.). University of California Press. 2000. p. 193. ISBN 978-0520219809 – via Google books.
  10. Brean, Henry (September 22, 2019). "Tree hunters stalk giants for Arizona's growing list of champions". tucson.com. Retrieved January 30, 2020.
  11. Muller, Seth (January 13, 2014). "Natural Selections: Searching out the saguaro". Arizona Daily Sun. Retrieved January 30, 2020 – via azdailysun.com.
  12. "Windstorm fells 78 foot cactus – tallest in world". The Los Angeles Times. Los Angeles, CA. Retrieved August 4, 2015 – via latimes.com.
  13. Hastings, James Rodney; Alcorn, Stanley M. (1961). "Physical determinations of growth and age in the giant cactus". Journal of the Arizona Academy of Science. 2 (1): 32. doi:10.2307/40025669. JSTOR 40025669.
  14. MacDougal, Daniel T. (September–October 1926). "Growth and penetrability of century-old cells". The American Naturalist. 60 (670): 411. doi:10.1086/280113. S2CID 84028206.
  15. ^ Bronson, Dustin R.; English, Nathan B.; Dettman, David L.; Williams, David G. (August 6, 2011). "Seasonal photosynthetic gas exchange and water-use efficiency in a constitutive CAM plant, the giant saguaro cactus (Carnegiea gigantea)". Oecologia. 167 (3): 861–871. Bibcode:2011Oecol.167..861B. doi:10.1007/s00442-011-2021-1. ISSN 1432-1939. PMID 21822726. S2CID 25829629.
  16. Krieg, John C. (2018). Desert Landscape Architecture. CRC Press. p. 466. ISBN 978-1351456104.
  17. "Crested saguaros". joeorman.shutterace.com. Joe Orman's photo pages. Retrieved February 29, 2020.
  18. "Crested Cactus". crestedsaguarosociety.org. Retrieved February 29, 2020.
  19. Natsu. "How two Seattle-area brothers made dwarf fortress". Hacker News. Retrieved April 29, 2024.
  20. "Memo on harvesting Saguaro ribs" (PDF) (Press release). Arizona Department of Agriculture. Retrieved November 4, 2019.
  21. ^ Bruhn, Jan G. (1971). "Carnegiea gigantea: The Saguaro and Its Uses". Economic Botany. 25 (3): 320–329. doi:10.1007/BF02860768. ISSN 0013-0001. JSTOR 4253267. S2CID 44788245.
  22. English, N. B.; Dettman, D. L.; Sandquist, D. R.; Williams, D. G. (2007). "Past climate changes and ecophysiological responses recorded in the isotope ratios of saguaro cactus spines". Oecologia. 154 (2): 247–258. Bibcode:2007Oecol.154..247E. doi:10.1007/s00442-007-0832-x. PMID 17724618. S2CID 282478.
  23. Jansen, Brian D.; Krausman, Paul R.; Heffelfinger, James R.; de Vos, James C., Jr. (March 24, 2005). "Saguaro spine penetrated bighorn sheep skull". The Southwestern Naturalist. 50 (4): 513–515. doi:10.1894/0038-4909(2005)050[0513:SSPBSS]2.0.CO;2. ISSN 0038-4909. S2CID 85735736.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  24. Lindsey, Douglas; Lindsey, Wally E. (July 1, 1988). "Cactus spine injuries". The American Journal of Emergency Medicine. 6 (4): 362–369. doi:10.1016/0735-6757(88)90158-1. ISSN 0735-6757. PMID 3390256.
  25. ^ Fleming, Theodore H.; Sahley, Catherine T.; Holland, J. Nathaniel; Nason, John D.; Hamrick, J. L. (2001). "Sonoran desert columnar cacti and the evolution of generalized pollination systems". Ecological Monographs. 71 (4): 511. doi:10.1890/0012-9615(2001)071[0511:SDCCAT]2.0.CO;2. hdl:1911/21702. ISSN 0012-9615.
  26. (November 6, 1914). "". Science. 40: 680. {{cite journal}}: |author= has generic name (help)
  27. Abrol, Dharam P. (2011). Pollination Biology: Biodiversity Conservation and Agricultural Production. Springer Science & Business Media. p. 294. ISBN 978-9400719422.
  28. Renzi, Julianna (2019). "A decade of flowering phenology of the keystone saguaro cactus (Carnegiea gigantea)". American Journal of Botany. 106 (2): 199–210. doi:10.1002/ajb2.1231. PMID 30791093.
  29. Fleming TH, Geiselman C, Kress WJ (2009). "The evolution of bat pollination: a phylogenetic perspective". Annals of Botany. 104 (6): 1017–1043. doi:10.1093/aob/mcp197. PMC 2766192. PMID 19789175.
  30. Nabhan, Gary Paul (2004). Conserving Migratory Pollinators and Nectar Corridors in Western North America. University of Arizona Press. p. 124. ISBN 978-0816522545.
  31. Saguaro fruit: A traditional harvest (PDF). nps.gov (Report). U.S. National Park Service. Retrieved December 21, 2019.
  32. Drezner, Taly D.; Garrity, Colleen M. (November 1, 2003). "Saguaro distribution under nurse plants in Arizona's Sonoran desert: Directional and microclimate influences". The Professional Geographer. 55 (4): 505–512. Bibcode:2003ProfG..55..505D. doi:10.1111/0033-0124.5504008. ISSN 0033-0124. S2CID 128958283.
  33. Niethammer, Carolyn (1974). American Indian Food and Lore. New York, NY: Simon & Schuster / Macmillan Company. p. 27. ISBN 0-02-010000-0.
  34. "Assembly". Genome. ncbi.nlm.nih.gov (v 1.3 ed.). NCBI. SGP5 Cgig. Retrieved April 24, 2018.
  35. Sanderson, Michael J.; Copetti, Dario; Búrquez, Alberto; Bustamante, Enriquena; Charboneau, Joseph L.M.; Eguiarte, Luis E.; et al. (July 1, 2015). "Exceptional reduction of the plastid genome of saguaro cactus (Carnegiea gigantea): Loss of the ndh gene suite and inverted repeat". American Journal of Botany. 102 (7): 1115–1127. doi:10.3732/ajb.1500184. hdl:2286/R.I.35789. ISSN 0002-9122. PMID 26199368.
  36. Spence, Mary Lee (1984). The Expeditions of John Charles Fremont, vol 3, Travels from 1848 to 1854. Urbana, Illinois: University of Illinois Press. pp. 495–496. ISBN 978-0252004162.
  37. "George Engelmann – Scientist of the Day". Linda Hall Library. February 2, 2017. Retrieved November 4, 2019.
  38. Nyffeler, R.; Eggli, U. (2010). "A farewell to dated ideas and concepts: molecular phylogenetics and a revised suprageneric classification of the family Cactaceae". Schumannia. 6: 109–149. doi:10.5167/uzh-43285. ISSN 1437-2517. S2CID 89650660. Archived from the original on July 15, 2016. Retrieved November 4, 2019.
  39. "Taxonomy – GRIN-Global Web v 1.10.5.0". npgsweb.ars-grin.gov. Retrieved November 4, 2019.
  40. Schlosser, S. E. "Saguaro cactus: 8 things you might not know". The Arizona Republic. Retrieved December 17, 2019.
  41. ^ Buckley, Steve (2011) . Common Plants of Saguaro National Park (PDF). National Park Service; Sonoran Desert Network. p. 63.
  42. "CNDDB News | Taxon of the Week: The Saguaro Cactus". wildlife.ca.gov.
  43. ^ "Where saguaros grow". Saguaro National Park. U.S. National Park Service. Retrieved April 24, 2018 – via nps.gov/sagu.
  44. ^ Drezner, Taly Dawn (June 1, 2014). "The keystone saguaro (Carnegiea gigantea, Cactaceae): a review of its ecology, associations, reproduction, limits, and demographics". Plant Ecology. 215 (6): 581–595. Bibcode:2014PlEco.215..581D. doi:10.1007/s11258-014-0326-y. ISSN 1573-5052. S2CID 18807470.
  45. ^ Peattie, Donald Culross (1953). A Natural History of Western Trees. New York: Bonanza Books. pp. 647, 649.
  46. Rabe, Michael J. (June 2009). Sanders, Todd A. (ed.). "Mourning Dove, White-winged Dove, and Band-tailed Pigeon: 2009 population status" (PDF). Laurel, Maryland: United States Fish and Wildlife Service. pp. 25–32. Public Domain This article incorporates text from this source, which is in the public domain.
  47. ^ Little, Elbert L. (1994) . The Audubon Society Field Guide to North American Trees. Vol. Western Region. Knopf / Chanticleer Press. p. 562. ISBN 0394507614.
  48. ^ "Gila woodpecker". Special features. Birds. Nature Conservancy. Archived from the original on December 15, 2016. Retrieved October 28, 2011 – via nature.org.
  49. ^ Elbroch, Mark; Marks, Eleanor Marie; Boretos, C. Diane (2001). Bird Tracks and Sign. Stackpole Books. p. 311. ISBN 0811726967 – via Google books.
  50. "Gila woodpecker fact sheet". desertmuseum.org. Retrieved February 22, 2019.
  51. "AZGFD spots first documented bald eagle nest in saguaro". Tucson, AZ: KGUN-TV. April 16, 2020. Retrieved April 16, 2020.
  52. "Bald eagles, eaglets found nesting in arms of Arizona cactus". The New York Times. Associated Press. April 16, 2020. ISSN 0362-4331. Retrieved April 16, 2020.
  53. "Carbon Sequestration and Sonoran Desert Cacti". e-Magazine of the AZ Geological Survey. October 18, 2021. Retrieved September 21, 2024.
  54. Garvie, Laurence A. J. (2006). "Decay of cacti and carbon cycling". Die Naturwissenschaften. 93 (3): 114–118. doi:10.1007/s00114-005-0069-7. ISSN 0028-1042. PMID 16453105.
  55. ^ Klingaman, Gerald (December 12, 2008), Plant of the Week: Saguaro Cactus, University of Arkansas, archived from the original on April 5, 2013, retrieved February 13, 2013.
  56. "Article 11: Arizona Native Plants". Arizona Department of Agriculture. Archived from the original on September 20, 2013.
  57. "Private Landowners Clearing Protected Native Plants" (PDF). Arizona Department of Agriculture. Archived from the original (PDF) on September 20, 2013.
  58. "Arizona Revised Statutes, A.R.S. 3-904.(H): Destruction of protected plants by private landowners; notice; exception". Arizona State Legislature. Archived from the original on October 16, 2018. Retrieved December 18, 2021.
  59. ^ Mikkelson, David (February 8, 2015), Death by Saguaro, Snopes, retrieved January 20, 2017
  60. Trimble, Marshall (2012). "Only On Hold Strange Laws Still On The Books In Arizona". Tucson News Now. Hold. Retrieved July 2, 2017.
  61. Snyder, Stephanie (2010). "Safety of native plants protected under Arizona law". ASU.edu. Chevas Samuels, McKenzie Manning, Stephanie Snyder. Archived from the original on October 14, 2018. Retrieved July 2, 2017. While damaging a cactus in Arizona will not warrant the rumored possibility of 25 years in prison, it is still considered a class four felony.
  62. Schiermeier, Quirin (June 1, 2005). "Pall hangs over desert's future as alien weeds fuel wildfires". Nature. 435 (7043): 724. Bibcode:2005Natur.435..724S. doi:10.1038/435724b. ISSN 1476-4687. PMID 15944662. S2CID 1678763.
  63. Marshall, V. M.; Lewis, M. M.; Ostendorf, B. (March 1, 2012). "Buffel grass (Cenchrus ciliaris) as an invader and threat to biodiversity in arid environments: A review". Journal of Arid Environments. 78: 1–12. Bibcode:2012JArEn..78....1M. doi:10.1016/j.jaridenv.2011.11.005. ISSN 0140-1963.
  64. Hauser, A. Scott (1993). "Pennisetum ciliare". US Forest Service Fire Effects Information System. U.S. Department of Agriculture, US Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Retrieved October 2, 2019.
  65. Phillips, Steven J.; Comus, Patricia, eds. (2000). A Natural History of the Sonoran Desert. Berkeley, CA: University of California Press. p. 193.
  66. Greene, Jacqueline Dembar (1998). The Tohono O'odham. New York, NY: Franklin Watts. ISBN 0531203263. OCLC 36713087.
  67. Brewer, Janice K. (2003–2004). Arizona Blue Book. Retrieved January 31, 2020 – via azmemory.azlibrary.gov.
  68. "Cooking ideas from old El Paso". oldelpaso.com. General Mills. Retrieved April 24, 2018.

Further reading

External links

Portals:
State flowers of the United States
Italics: state wildflower WF, state children's flower CH, state floral emblem FE, beautification and conservation BC
Taxon identifiers
Carnegiea gigantea
Cereus giganteus
Categories: