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Journal articles on the topic 'Callophrys'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

KRUPITSKY, ANATOLY V., and KIRILL A. KOLESNICHENKO. "A new species of the Callophrys mystaphia Miller, 1913—group from Iran (Lepidoptera: Lycaenidae: Eumaeini)." Zootaxa 3619, no. 4 (March 1, 2013): 460–66. http://dx.doi.org/10.11646/zootaxa.3619.4.4.

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A new species, recently misinterpreted as Callophrys mystaphia Miller, 1913, Callophrys mystaphioides Krupitsky & Kolesnichenko sp. n., is described from Central Iran (Esfahan Province). The new species differs from C. mystaphia in the combination of external characters and morphology of genitalia. Possible relations of C. mystaphia—species group with other Palaearctic Callophrys are discussed.
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2

Chapman, T. A. "II. On Callophrys avis, Chpm." Transactions of the Royal Entomological Society of London 58, no. 1-2 (April 24, 2009): 85–106. http://dx.doi.org/10.1111/j.1365-2311.1910.tb01166.x.

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3

Chapman, T. A. "VI. The food-plant of Callophrys avis." Transactions of the Royal Entomological Society of London 60, no. 2 (April 24, 2009): 409–11. http://dx.doi.org/10.1111/j.1365-2311.1912.tb03100.x.

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4

Michielsen, K., and D. G. Stavenga. "Gyroid cuticular structures in butterfly wing scales: biological photonic crystals." Journal of The Royal Society Interface 5, no. 18 (June 13, 2007): 85–94. http://dx.doi.org/10.1098/rsif.2007.1065.

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We present a systematic study of the cuticular structure in the butterfly wing scales of some papilionids ( Parides sesostris and Teinopalpus imperialis ) and lycaenids ( Callophrys rubi , Cyanophrys remus , Mitoura gryneus and Callophrys dumetorum ). Using published scanning and transmission electron microscopy (TEM) images, analytical modelling and computer-generated TEM micrographs, we find that the three-dimensional cuticular structures can be modelled by gyroid structures with various filling fractions and lattice parameters. We give a brief discussion of the formation of cubic gyroid membranes from the smooth endoplasmic reticulum in the scale's cell, which dry and harden to leave the cuticular structure behind when the cell dies. The scales of C. rubi are a potentially attractive biotemplate for producing three-dimensional optical photonic crystals since for these scales the cuticle-filling fraction is nearly optimal for obtaining the largest photonic band gap in a gyroid structure.
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5

Spalding, Adrian. "Callophrys rubi (L.) interacting with Favonius quercus (L.)." Entomologist's Gazette 72, no. 3 (August 13, 2021): 188. http://dx.doi.org/10.31184/g00138894.723.1786.

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6

Meyer, Robert T., and Dave McElveen. "An experimental translocation of the imperiled frosted elfin (Callophrys irus)." Journal of Insect Conservation 25, no. 3 (April 26, 2021): 479–84. http://dx.doi.org/10.1007/s10841-021-00315-w.

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7

Michielsen, K., H. De Raedt, and D. G. Stavenga. "Reflectivity of the gyroid biophotonic crystals in the ventral wing scales of the Green Hairstreak butterfly, Callophrys rubi." Journal of The Royal Society Interface 7, no. 46 (October 14, 2009): 765–71. http://dx.doi.org/10.1098/rsif.2009.0352.

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We present a comparison of the computer simulation data of gyroid nanostructures with optical measurements (reflectivity spectra and scattering diagrams) of ventral wing scales of the Green Hairstreak butterfly, Callophrys rubi . We demonstrate that the omnidirectional green colour arises from the gyroid cuticular structure grown in the domains of different orientation. We also show that this three-dimensional structure, operating as a biophotonic crystal, gives rise to various polarization effects. We briefly discuss the possible biological utility of the green coloration and polarization effects.
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8

McElveen, Dave, Dean Jue, Sally Jue, and Virginia Dell Craig. "Life History Observations of Callophrys irus (Family: Lycaenidae) in North Florida, USA." Journal of the Lepidopterists' Society 74, no. 1 (March 16, 2020): 51. http://dx.doi.org/10.18473/lepi.74i1.a6.

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9

Kuznetsov, G. V., B. V. Stradomsky, and E. S. Fomina. "Record of population of Callophrys chalybeitincta Sovynski, 1905 (Lepidoptera: Lycaenidae) in Volgograd Region (Russia)." Caucasian Entomological Bulletin 9, no. 2 (2013): 293–94. http://dx.doi.org/10.23885/1814-3326-2013-9-2-293-294.

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10

Schröder-Turk, G. E., S. Wickham, H. Averdunk, F. Brink, J. D. Fitz Gerald, L. Poladian, M. C. J. Large, and S. T. Hyde. "The chiral structure of porous chitin within the wing-scales of Callophrys rubi." Journal of Structural Biology 174, no. 2 (May 2011): 290–95. http://dx.doi.org/10.1016/j.jsb.2011.01.004.

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11

Winter, Benjamin, Benjamin Butz, Christel Dieker, Gerd E. Schröder-Turk, Klaus Mecke, and Erdmann Spiecker. "Coexistence of both gyroid chiralities in individual butterfly wing scales of Callophrys rubi." Proceedings of the National Academy of Sciences 112, no. 42 (October 5, 2015): 12911–16. http://dx.doi.org/10.1073/pnas.1511354112.

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The wing scales of the Green Hairstreak butterfly Callophrys rubi consist of crystalline domains with sizes of a few micrometers, which exhibit a congenitally handed porous chitin microstructure identified as the chiral triply periodic single-gyroid structure. Here, the chirality and crystallographic texture of these domains are investigated by means of electron tomography. The tomograms unambiguously reveal the coexistence of the two enantiomeric forms of opposite handedness: the left- and right-handed gyroids. These two enantiomers appear with nonequal probabilities, implying that molecularly chiral constituents of the biological formation process presumably invoke a chiral symmetry break, resulting in a preferred enantiomeric form of the gyroid structure. Assuming validity of the formation model proposed by Ghiradella H (1989) J Morphol 202(1):69–88 and Saranathan V, et al. (2010) Proc Natl Acad Sci USA 107(26):11676–11681, where the two enantiomeric labyrinthine domains of the gyroid are connected to the extracellular and intra-SER spaces, our findings imply that the structural chirality of the single gyroid is, however, not caused by the molecular chirality of chitin. Furthermore, the wing scales are found to be highly textured, with a substantial fraction of domains exhibiting the <001> directions of the gyroid crystal aligned parallel to the scale surface normal. Both findings are needed to completely understand the photonic purpose of the single gyroid in gyroid-forming butterflies. More importantly, they show the level of control that morphogenesis exerts over secondary features of biological nanostructures, such as chirality or crystallographic texture, providing inspiration for biomimetic replication strategies for synthetic self-assembly mechanisms.
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12

Stradomsky, B. V. "A new subspecies of Callophrys chalybeitincta Sovinsky, 1905 (Lepidoptera: Lycaenidae) from the lower Don river." Caucasian Entomological Bulletin 1, no. 1 (2005): 85–86. http://dx.doi.org/10.23885/1814-3326-2005-1-1-85-86.

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13

MORRIS, R. B. "Iridescence from diffraction structures in the wing scales of Callophrys rubi, the Green Hairstreak." Journal of Entomology Series A, General Entomology 49, no. 2 (April 2, 2009): 149–54. http://dx.doi.org/10.1111/j.1365-3032.1975.tb00079.x.

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14

Corkery, Robert W., and Eric C. Tyrode. "On the colour of wing scales in butterflies: iridescence and preferred orientation of single gyroid photonic crystals." Interface Focus 7, no. 4 (June 16, 2017): 20160154. http://dx.doi.org/10.1098/rsfs.2016.0154.

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Lycaenid butterflies from the genera Callophrys , Cyanophrys and Thecla have evolved remarkable biophotonic gyroid nanostructures within their wing scales that have only recently been replicated by nanoscale additive manufacturing. These nanostructures selectively reflect parts of the visible spectrum to give their characteristic non-iridescent, matte-green appearance, despite a distinct blue–green–yellow iridescence predicted for individual crystals from theory. It has been hypothesized that the organism must achieve its uniform appearance by growing crystals with some restrictions on the possible distribution of orientations, yet preferential orientation observed in Callophrys rubi confirms that this distribution need not be uniform. By analysing scanning electron microscope and optical images of 912 crystals in three wing scales, we find no preference for their rotational alignment in the plane of the scales. However, crystal orientation normal to the scale was highly correlated to their colour at low (conical) angles of view and illumination. This correlation enabled the use of optical images, each containing up to 10 4 –10 5 crystals, for concluding the preferential alignment seen along the at the level of single scales, appears ubiquitous. By contrast, orientations were found to occur at no greater rate than that expected by chance. Above a critical cone angle, all crystals reflected bright green light indicating the dominant light scattering is due to the predicted band gap along the direction, independent of the domain orientation. Together with the natural variation in scale and wing shapes, we can readily understand the detailed mechanism of uniform colour production and iridescence suppression in these butterflies. It appears that the combination of preferential alignment normal to the wing scale, and uniform distribution within the plane is a near optimal solution for homogenizing the angular distribution of the band gap relative to the wings. Finally, the distributions of orientations, shapes, sizes and degree of order of crystals within single scales provide useful insights for understanding the mechanisms at play in the formation of these biophotonic nanostructures.
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15

Albanese, Gene, Peter D. Vickery, and Paul R. Sievert. "Microhabitat use by larvae and females of a rare barrens butterfly, frosted elfin (Callophrys irus)." Journal of Insect Conservation 12, no. 6 (July 19, 2007): 603–15. http://dx.doi.org/10.1007/s10841-007-9097-2.

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16

Albanese, Gene, Peter D. Vickery, and Paul R. Sievert. "Habitat characteristics of adult frosted elfins (Callophrys irus) in sandplain communities of southeastern Massachusetts, USA." Biological Conservation 136, no. 1 (April 2007): 53–64. http://dx.doi.org/10.1016/j.biocon.2006.10.055.

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17

Fiedler, Konrad, Elisabeth Krug, and Peter Proksch. "Complete elimination of hostplant quinolizidine alkaloids by larvae of a polyphagous lycaenid butterfly, Callophrys rubi." Oecologia 94, no. 3 (June 1993): 441–45. http://dx.doi.org/10.1007/bf00317121.

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18

López-Palafox, Tania G., and Carlos R. Cordero. "Two-headed butterfly vs. mantis: do false antennae matter?" PeerJ 5 (June 22, 2017): e3493. http://dx.doi.org/10.7717/peerj.3493.

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The colour patterns and morphological peculiarities of the hindwings of several butterfly species result in the appearance of a head at the rear end of the insect’s body. Although some experimental evidence supports the hypothesis that the “false head” deflects predator attacks towards the rear end of the butterfly, more research is needed to determine the role of the different components of the “false head”. We explored the role of hindwing tails (presumably mimicking antennae) in predator deception in the “false head” butterfly Callophrys xami. We exposed butterflies with intact wings and with hindwing tails experimentally ablated to female mantises (Stagmomantis limbata). We found no differences in the number of butterflies being attacked and the number of butterflies escaping predation between both groups. However, our behavioural observations indicate that other aspects of the “false head” help C. xami survive some mantis attacks, supporting the notion that they are adaptations against predators.
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19

Swengel, Ann, and Scott Swengel. "Twenty Years of Elfin Enumeration: Abundance Patterns of Five Species of Callophrys (Lycaenidae) in Central Wisconsin, USA." Insects 5, no. 2 (April 23, 2014): 332–50. http://dx.doi.org/10.3390/insects5020332.

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20

Stradomsky, B. V., and D. I. Vodolazhsky. "Callophrys rubi (Linnaeus, 1758) and C. chalybeitincta Sovynski, 1905 (Lepidoptera: Lycaenidae): a comparative analysis of mitochondrial and nuclear DNA sequences." Caucasian Entomological Bulletin 7, no. 1 (2011): 79–80. http://dx.doi.org/10.23885/1814-3326-2011-7-1-79-80.

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21

KRUPITSKY, ANATOLY V., IGOR G. Pljushtch, and OLEG V. Pak. "A new species of the Callophrys paulae Pfeiffer, 1932 species group from Afghanistan (Lepidoptera, Lycaenidae)." Zootaxa 4027, no. 2 (October 2, 2015): 281. http://dx.doi.org/10.11646/zootaxa.4027.2.7.

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22

Cordero, C. "Trade-off between fitness components in males of the polygynous butterfly Callophrys xami (Lycaenidae): the effect of multiple mating on longevity." Behavioral Ecology and Sociobiology 48, no. 6 (November 17, 2000): 458–62. http://dx.doi.org/10.1007/s002650000261.

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23

Krupitsky, A. V., and R. V. Yakovlev. "Description of a new subspecies of Callophrys suaveola (Staudinger, 1881) (Lepidoptera: Lycaenidae) from Mongolian Altai with notes on a distribution of C. suaveola." Caucasian Entomological Bulletin 8, no. 2 (2012): 261–63. http://dx.doi.org/10.23885/1814-3326-2012-8-2-261-263.

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24

Klimczuk, Przemysław, and Marcin Sielezniew. "Unexpected differences in butterfly diversity between two peat bogs in the same area." Polish Journal of Entomology 86, no. 3 (September 1, 2017): 251–73. http://dx.doi.org/10.1515/pjen-2017-0015.

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Abstract Peat bogs are listed among the most threatened habitats in central Europe, a situation that is reflected by, for example, the conservational status of stenotopic butterflies. Even so, this group remains relatively little studied and most of the available data are limited to qualitative records. The present study enabled us to gain insight into the butterfly fauna of the two largest peat bogs in the Knyszyn Forest (NE Poland), i.e. Bagno Moskal and the one in the Jesionowe Góry nature reserve. The sites, only ca 10 km apart, are characterized by similar vegetation (mainly the Ledo-Sphagnetum association). The study was carried out in 2013-2015 using the transect method, i.e. regular counts along fixed routes. A total of 37 species, including three tyrphobionts (Colias palaeno, Plebejus optilete and Boloria eunomia) and two tyrphophiles (Callophrys rubi and Boloria euphrosyne), were recorded. The greatest and unexpected differences between the sites were related to the complete absence of P. optilete at Bagno Moskal, the significantly higher abundance of B. eunomia at Jesionowe Góry and the greater abundance of B. euphrosyne at Bagno Moskal. In addition, C. palaeno was observed sporadically and only at Bagno Moskal. There was some heterogeneity in the distribution and density of particular species, however. Ledum palustre was found to be the most important nectar plant, its flowers also being frequently visited by tyrphoneutrals. The present study shows that isolated island-like habitats (e.g. peat bogs) may possess specific features and be subject to specific independent changes. The results provide a good basis for further research into the habitat preferences of tyrphophilous and tyrphobiontic butterflies, which is important in the context of their conservation.
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25

Taylor, Alana N., and Paul M. Catling. "Bees and Butterflies in Burned and Unburned Alvar Woodland: Evidence for the Importance of Postfire Succession to Insect Pollinator Diversity in an Imperiled Ecosystem." Canadian Field-Naturalist 125, no. 4 (August 13, 2012): 297. http://dx.doi.org/10.22621/cfn.v125i4.1258.

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The apparent importance of successional habitat to pollinating insects, specifically bees (Hymenoptera) and butterflies (Lepidoptera) was quantified in an alvar landscape in the Ottawa valley through a comparison of burned and unburned alvar woodland. The two adjacent habitats on the same successional gradient were sampled by sweeping with additional data from pitfall traps for bees and by direct observation with close focus binoculars and occasional verification through capture with a net for butterflies. The sampling was done during 11 visits in 2008 beginning 16 May and ending 13 September. Both bee and butterfly diversity were higher in the post-fire burned alvar woodland compared to the adjacent unburned woodland based on species richness, number of individuals and Brillouin’s Biodiversity Index which takes evenness and heterogeneity into account. No bees were captured in the unburned area, but 34 species and 201 individuals were captured in the burned site. The most abundant bee species was Augochlora aurata. Lepidoptera were represented in the burned site by 35 species and 408 individuals compared to 15 species and 21 individuals in the unburned woodland. The most common butterfly species in the burned woodland was Callophrys polios. The higher diversity of pollinators in the burned site was correlated with both higher vascular plant diversity and much higher cover and frequency values for insect-pollinated plants providing nectar and pollen including flowering shrubs such as Amelanchier alnifolia var. compacta, Arctostaphylos uva-ursi and Prunus virginiana. The burned site also provided more cover of larval food plants for butterflies and apparently more nesting sites for bees. We suggest that a decrease in fire frequency and in the availability of open successional habitats are contributing factors in the decline of pollinators, and that endangered ecosystems where fire has been a natural phenomenon may require fire or fire-simulated management to sustain their biodiversity.
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26

KRUPITSKY, ANATOLY V., IGOR G. PLJUSHTCH, and OLEG V. PAK. "Erratum: ANATOLY V. KRUPITSKY, IGOR G. PLJUSHTCH & OLEG V. PAK (2015) A new species of the Callophrys paulae Pfeiffer, 1932 species group from Afghanistan (Lepidoptera, Lycaenidae). Zootaxa, 4027 (2): 281–286." Zootaxa 4052, no. 1 (December 1, 2015): 150. http://dx.doi.org/10.11646/zootaxa.4052.1.10.

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27

Storer, Caroline, Jaret Daniels, Lei Xiao, and Kristin Rossetti. "Using Noninvasive Genetic Sampling to Survey Rare Butterfly Populations." Insects 10, no. 10 (September 23, 2019): 311. http://dx.doi.org/10.3390/insects10100311.

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Advances in nondestructive genetic sampling techniques continue to offer new opportunities for studying organisms, particularly those of conservation concern where more traditional invasive sampling methods are often not available. As part of a proof-of-concept, we investigated the effectiveness of using the chorion from residual butterfly egg debris as a source of viable genetic material for analysis. Laboratory material from a captive breeding population of the federally endangered Miami blue butterfly (Cyclargus thomasi bethunebakeri) was used to test efficacy and refine the methodology. The resulting best practices were subsequently evaluated using field-collected material from extant north Florida populations of the at-risk frosted elfin butterfly (Callophyrs irus). Our results demonstrated that it is possible to extract DNA of sufficiently high quantity and quality for successful gene sequencing. We additionally describe a simple, low-cost, and reliable method of collecting and storing egg debris samples that can be consistently adopted for field or laboratory work as well as deployed with projects that have a larger geographic scope and/or involve citizen scientists. Potential limitations related to field sample collection are discussed as well as needs for future evaluation.
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28

Moskowitz, David. "Surveying for caterpillars of a rare butterfly using ultraviolet light: the Frosted Elfin butterfly (Callophyrs irus) as a test case." Journal of Insect Conservation 24, no. 2 (December 5, 2019): 321–26. http://dx.doi.org/10.1007/s10841-019-00200-7.

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29

Ashwill, Amanda, Kevin J. Burns, and Casey H. Richart. "Opal-crowned Tanager (Tangara callophrys)." Neotropical Birds, February 6, 2015. http://dx.doi.org/10.2173/nb.opctan1.01.

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30

Mille, Christian, Eric C. Tyrode, and Robert W. Corkery. "3-D Chiral Photonic Crystals Replicated from Butterfly Wing Scales." MRS Proceedings 1389 (2012). http://dx.doi.org/10.1557/opl.2012.490.

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ABSTRACTThree dimensional silica photonic crystals with the gyroid minimal surface structure have been synthesized using the butterfly Callophrys rubi as a template. The replicas are synthesized with a high degree of fidelity, which is confirmed by the spectral and morphological characterization. Further, the material is shown to be optically active.
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31

Mcelveen, Dave, and Robert t. Meyer. "An Effective and Affordable Camera Trap for Monitoring Flower-visiting Butterflies in Sandhills: with Implications for the Frosted Elfin (Callophrys irus)." Journal of Pollination Ecology 26 (June 8, 2020). http://dx.doi.org/10.26786/1920-7603(2020)573.

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New advancements in camera trap technology have led to wide-spread use in animal monitoring. In this study we tested whether modern self-contained camera traps could be used to identify small lepidopterans such as the frosted elfin (Callophrys irus). A vast majority of photographed lepidopterans, 76/81 (93.83%), were identifiable to family when moving relatively slowly across the camera’s field of view. Although no C. irus were observed, we were able to identify several species of lepidopterans including those of similar size as C. irus. We find that modern camera traps are adequate to sample small lepidopterans and may open new avenues to survey for small rare species such as C. irus over larger areas than typically possible with small field crews and short flight seasons.
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32

Miller, Debbie, Mack Thetford, Chris Verlinde, Gabriel Campbell, and Ashlynn Smith. "Yaupon, Ilex vomitoria." EDIS 2018, no. 5 (October 4, 2018). http://dx.doi.org/10.32473/edis-sg172-2018.

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Yaupon is found throughout Florida south to Lake Okeechobee and more broadly throughout the southeast west to Texas and east to North Carolina. The leaves and small twigs of yaupon contain caffeine, and yaupon teas have been consumed by humans for centuries. The fruits and flowers of yaupon attract wildlife, especially birds and pollinators, and it is a larval host plant for Henry’s elfin butterfly (Callophrys henrici) (Lotts and Naberhaus 2017). Yaupon is used in landscaping and can tolerate a wide range of environmental conditions. Several cultivars are available in the horticultural industry. https://edis.ifas.ufl.edu/sg172 This publication is derived from information in SGEB-75/SG156, Dune Restoration and Enhancement for the Florida Panhandle, by Debbie Miller, Mack Thetford, Christina Verlinde, Gabriel Campbell, and Ashlynn Smith. https://edis.ifas.ufl.edu/sg156.
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33

Shepard, Caralee A., Leah C. Crenshaw, Emily M. Baldwin, Keane Sammon, Kaylen M. Holman, Drew A. Gazaway, Natalie E. Phelan, et al. "Distribution and Habitat Preferences of a Frosted Elfin Subspecies (Callophrys irus hadros, Lycaenidae) in Arkansas." Journal of the Lepidopterists' Society 75, no. 2 (June 8, 2021). http://dx.doi.org/10.18473/lepi.75i2.a3.

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34

"Opinion 2291 (Case 3524) Thecla dumetorum Boisduval, 1852 (currently Callophrys dumetorum), proposed neotype; and Thecla sheridonii Carpenter, 1877 (currently C. sheridanii) (Lepidoptera, lycaenidae): current usage and names conserved." Bulletin of Zoological Nomenclature 69, no. 1 (March 2012): 69–71. http://dx.doi.org/10.21805/bzn.v69i1.a2.

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