Arceuthobium blumeri

Arceuthobium blumeri
Scientific classification
Kingdom:	Plantae
Clade:	Tracheophytes
Clade:	Angiosperms
Clade:	Eudicots
Order:	Santalales
Family:	Santalaceae
Genus:	Arceuthobium
Species:	A. blumeri
Binomial name
Arceuthobium blumeri A.Nelson
Synonyms
Arceuthobium campylopodum subsp. blumeri (A.Nelson) Nickr.

Arceuthobium blumeri, commonly known as Blumer's dwarf mistletoe or southwestern white pine dwarf mistletoe, is a species of dwarf mistletoe. It is a parasitic plant that grows as a small shrub on the branches and trunk of pine trees in the Section Strobus from southeastern Arizona to northern Mexico. In turn, A. blumeri is sometimes parasitized by fungi and provides food for animals, although little is known about its associations with other species. This species is ecologically important because of the negative impact of infection by A. blumeri on host trees and because the witch's brooms this species induces on its hosts are important microhabitats.

Description

Arceuthobium blumeri is an epiphytic parasite, like all other members of its genus. It gains most of its nutrients and all of its water by tapping into the xylem and phloem of a host tree via tissues called haustoria. For the first few years of the plant's life, it grows entirely within a young branch of the host tree, developing its endophytic system. ^[1] Eventually, a network of gray-, straw-, or light-green-colored shoots approximately 10 cm long emerge from the host. ^[2] In Arizona, the stems tend to be shorter, averaging 8 cm; in Durango, stems reach lengths up to 18 cm. ^[1] The leaves of A. blumeri are minute and reduced to scales that clasp the stem.

Plants of A. blumeri are dioecious, meaning that each individual produces either staminate (male) or pistillate (female) flowers. Male flowers have 3, 4, or sometimes 5 or 6 petals, are 3-4 mm in diameter, and are notably darker-colored than the rest of the plant. ^{[1] [2]} Male flowers bloom in mid-summer, with peak anthesis occurring in early August. ^[2] The fruit is a light green, ovoid berry with a slightly glaucous surface, 5 mm long, maturing in late summer to early fall, with peak seed dispersal in mid-September. ^[1] As with other dwarf mistletoes, hydrostatic pressure builds up in the fruit until it discharges its seed at a velocity of up to 60 miles per hour. ^[1] The seed is covered in a sticky substance called viscin which helps it adhere to its target. ^[1]

The host range of A. blumeri is narrow, with only two documented host species. In the United States, it only infects Southwestern white pine; taxonomic authorities differ in their treatment of this species of pine in southern Arizona, which is called Pinus strobiformis or sometimes Pinus reflexa. ^{[1] [3]} In northern Mexico, it has also been documented on Mexican white pine (Pinus ayacahuite). ^[4] Another species of dwarf mistletoe, Apache dwarf mistletoe (A. apachecum), also parasitizes southwestern white pines, but differs morphologically from A. blumeri and is not sympatric, meaning that its range does not overlap with that of A. blumeri. ^{[2] [5]}

Distribution

This species is distributed widely through the Sierra Madre Occidental in Mexico, extending from the Huachuca Mountains of Cochise County, Arizona to southern Durango. ^{[6] [7] [8]} There are also disjunct populations in Coahuila and on Cerro Potosí in the Sierra Madre Oriental. ^{[2] [7]} The elevational range of A. blumeri is 2100-3300 meters. ^[7]

Populations of A. blumeri in the Huachuca Mountains have been impacted by wildfires, including the Monument Fire in 2011, significantly altering its distribution in Arizona. ^[1]

Ecology

Infection by A. blumeri reduces the longevity and fecundity of its host trees, and stands of moderately- to heavily-infected Southwestern white pines show mortality rates more than 20 times higher than uninfected trees. ^[9] Contrary to early reports, A. blumeri frequently induces witch's brooms on infected trees at high elevations in the Huachuca Mountains. ^[9] These brooms are irregularly-shaped and open. ^[10] The formation of brooms is detrimental to the health of the host tree but also provides habitat for small mammals and birds. ^{[1] [10]}

Associations between A. blumeri and animals are poorly understood. For example, it is not known whether the species is insect-pollinated or wind-pollinated. ^{[1] [11]} Dwarf mistletoes in general are known to be an important food source for larvae of some butterflies, including species of hairstreaks, but no data is available about specialists on A. blumeri. ^[1]

The fungus Cyllindrocarpon gillii has been reported as a hyperparasite on A. blumeri and on other species of dwarf mistletoe. ^[12] Plants infected by this fungus develop yellowish-white lesions on both male and female shoots, erupting in white masses of spores. ^{[12] [13]} Thus, this fungus is a natural biocontrol agent of A. blumeri. ^[12]

Conservation

Arceuthobium blumeri is listed as a vulnerable species globally and in the United States. ^{[14] [15]} Though not listed under the Endangered Species Act of 1973, this species is classified as critically imperiled in Arizona by NatureServe, largely due to threats to Southwestern white pine, including by white pine blister rust, drought, and wildfires. ^[14]

Taxonomy

Arceuthobium blumeri was first described in 1913, based on collections from the Huachuca Mountains taken by Jacob Corwin Blumer in 1910. ^[16] The species epithet blumeri honors the original collector, whose botanical expeditions in southern Arizona in the early 20th century produced 28 type specimens of newly-described species. ^[17]

This species belongs to Section Campylpoda, a clade of dwarf mistletoes with species boundaries that are difficult to discern. Taxonomic treatments of this group vary among authorities. Plants of the World Online recognizes A. blumeri at the species level, following the framework advocated by Mathiasen and Kenaley. ^{[18] [2]} Some authorities, including the Flora of North America, treat this taxon as A. campylopodum subsp. blumeri, following a framework advocated by Nickrent. ^{[7] [19]} Notably, a phylogenetic analysis of Section Campylopoda utilizing nuclear ribosomal ITS sequences and chloroplast sequences supported A. blumeri as the most divergent genetic lineage in Campylopoda. ^[20] The results of this study indicate that A. blumeri forms a basal clade representing a transitional species between Sections Campylopoda and Vaginata. ^[19]

Earlier studies questioned whether A. apachecum and A. blumeri are distinct, given that both species occur in southern Arizona and northern Mexico and specialize on Southwestern white pine. Cross-pollination studies failed to produce viable hybrid fruit, but the studies were inconclusive because control groups also yielded few viable fruit. ^[21] Chemotaxonomic studies demonstrated chemical differences between A. blumeri and other species, including A. apachecum. ^[22] Morphological studies have also been used to argue that A. blumeri is distinct from both of the other white pine specialists, A. apachecum and A. cyanocarpum. ^[23]

References

1. Mathiasen, Robert L. (2021). Mistletoes of the Continental United States and Canada. Botanical miscellany. Fort Worth, Texas: BRIT Press. ISBN   978-1-889878-66-9.
2. Kenaley, Shawn C.; Mathiasen, Robert L. (2025-07-04). "Dwarf Mistletoes (Arceuthobium, Viscaceae) of North America: Classification Systems, Phylogenetic Relationships, and Taxonomic Characteristics". Plants. 14 (13): 2051. Bibcode:2025Plnts..14.2051K. doi: 10.3390/plants14132051 . ISSN   2223-7747. PMC   12252426 . PMID   40648060.
3. "Pinus strobiformis (Pino blanco, Mexican white pine) description". www.conifers.org. Retrieved 2025-10-04.
4. Quiñonez Barraza, S.; Mathiasen, R. (2010). "First Report of Arceuthobium blumeri on Pinus ayacahuite and A. globosum subsp. globosum on P. durangensis from Sinaloa, Mexico". Plant Disease. 94 (3): 377. Bibcode:2010PlDis..94..377Q. doi:10.1094/PDIS-94-3-0377B. ISSN   0191-2917. PMID   30754224.
5. "Arceuthobium campylopodum subsp. apachecum - FNA". floranorthamerica.org. Retrieved 2025-10-04.
6. Bowers, Janice E.; McLaughlin, Steven P. (1996). "Flora of the Huachuca Mountains, a Botanically Rich and Historically Significant Sky Island in Cochise County, Arizona". Journal of the Arizona-Nevada Academy of Science. 29 (2): 66–107. ISSN   0193-8509.
7. "Arceuthobium campylopodum subsp. blumeri - FNA". floranorthamerica.org. Retrieved 2025-10-04.
8. Mathiasen, Robert L.; Elizondo, M. Socorro González; Elizondo, Martha González; Howell, Brian E.; Enriquez, I. Lorena López; Scott, Jared; Flores, Jorge A. Tena (2008). "Distribution of Dwarf Mistletoes (arceuthobium Spp., Viscaceae) in Durango, Mexico". Madroño. 55 (2): 161–169. ISSN   0024-9637.
9. Mathiasen, Robert L. (1979). "Distribution and Effect of Dwarf Mistletoes Parasitizing Pinus strobiformis in Arizona, New Mexico, and Northern Mexico". The Southwestern Naturalist. 24 (3): 455–461. Bibcode:1979SWNat..24..455M. doi:10.2307/3671301. ISSN   0038-4909. JSTOR   3671301.
10. Tinnin, Robert O.; Hawksworth, Frank G.; Knutson, Donald M. (1982). "Witches' Broom Formation in Conifers Infected by Arceuthobium spp.: An Example of Parasitic Impact upon Community Dynamics". The American Midland Naturalist. 107 (2): 351–359. doi:10.2307/2425385. ISSN   0003-0031.
11. Player, Glade (1979). "Pollination and Wind Dispersal of Pollen in Arceuthobium". Ecological Monographs. 49 (1): 73–87. doi:10.2307/1942573. ISSN   0012-9615.
12. Hawksworth, Frank; Wicker, Ed; Scharpf, Robert (April 1977). "Fungal Parasites of Dwarf Mistletoes" (PDF). Rocky Mountain Forest and Range Experiment Station, Forest Service, USDA. 36.
13. Geils, Brian W.; Cibrian-Tovar, Jose; Moody, Benjamin (2002). "Mistletoes of North American conifers". Gen. Tech. Rep. RMRS-GTR-98. Ogden, UT: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station. 098: 77–79. doi:10.2737/RMRS-GTR-98.
14. "NatureServe Explorer 2.0". explorer.natureserve.org. Retrieved 2025-10-04.
15. "USDA Plants Database". plants.usda.gov. Retrieved 2025-10-04.
16. Nelson, Aven (1913). "Contributions from the Rocky Mountain Herbarium. XIII". Botanical Gazette. 56 (1): 63–71. doi:10.1086/331107. ISSN   0006-8071. JSTOR   2468015.
17. Bowers, Janice E. (1983). "Jacob Corwin Blumer, Arizona Botanist". Brittonia. 35 (3): 197–203. doi:10.2307/2806015. ISSN   0007-196X.
18. "Arceuthobium blumeri A.Nelson | Plants of the World Online | Kew Science". Plants of the World Online. Retrieved 2025-10-04.
19. Nickrent, D.L. "Justification for subspecies in Arceuthobium campylopodum (Viscaceae)" (PDF). Phytoneuron. 2012 (51).
20. Nickrent, Daniel L.; García, Miguel A.; Martín, Maria P.; Mathiasen, Robert L. (2004). "A phylogeny of all species of Arceuthobium (Viscaceae) using nuclear and chloroplast DNA sequences". American Journal of Botany. 91 (1): 125–138. Bibcode:2004AmJB...91..125N. doi:10.3732/ajb.91.1.125. ISSN   1537-2197. PMID   21653369.
21. Mathiasen, Robert L. (1982). "Taxonomic Studies of Dwarf Mistletoes (arceuthobium Spp.) Parasitizing Pinus Strobiformis". The Great Basin Naturalist. 42 (1): 120–127. ISSN   0017-3614. JSTOR   41711870.
22. Crawford, Daniel J.; Hawksworth, Frank G. (1979-04-01). "Flavonoid chemistry of arceuthobium (viscaceae)". Brittonia. 31 (2): 212–216. Bibcode:1979Britt..31..212C. doi:10.2307/2806177. ISSN   1938-436X. JSTOR   2806177.
23. Reif, Brian P.; Mathiasen, Robert L.; Kenaley, Shawn C.; Allan, Gerard J. (2015). "Genetic Structure and Morphological Differentiation of Three Western North American Dwarf Mistletoes (Arceuthobium: Viscaceae)". Systematic Botany. 40 (1): 191–207. ISSN   0363-6445.