Difference between revisions of "Galactia regularis"
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In a field study of vegetation change in Florida scrub, G. regularis cover increased after fire.<ref>Weekley, C.W. and E.S. Menges. 2003. Species and vegetation responses to prescribed fire in a long-unburned, endemic-rich Lake Wales ridge scrub. J. Torrey Bot. Soc. 130: 265-282. Bolin, J. F. (2009). "Heat shock germination responses of three eastern North American temperate species." Castanea 74: 160-167.</ref> However, this increase may not be the direct result of fire. Heat shock germination may play a role in its post-fire recruitment.<ref name="Bolin 2009"/> The amount of G. regularis decreased after a spring burn; decreased slightly after a summer burn; and increased in the control plots.<ref name="Cushwa et al 1970">Cushwa, C. T., M. Hopkins, et al. (1970). Response of legumes to prescribed burns in loblolly pine stands of the South Carolina Piedmont. Asheville, NC, USDA Forest Service, Research Note SE-140: 6.</ref> | In a field study of vegetation change in Florida scrub, G. regularis cover increased after fire.<ref>Weekley, C.W. and E.S. Menges. 2003. Species and vegetation responses to prescribed fire in a long-unburned, endemic-rich Lake Wales ridge scrub. J. Torrey Bot. Soc. 130: 265-282. Bolin, J. F. (2009). "Heat shock germination responses of three eastern North American temperate species." Castanea 74: 160-167.</ref> However, this increase may not be the direct result of fire. Heat shock germination may play a role in its post-fire recruitment.<ref name="Bolin 2009"/> The amount of G. regularis decreased after a spring burn; decreased slightly after a summer burn; and increased in the control plots.<ref name="Cushwa et al 1970">Cushwa, C. T., M. Hopkins, et al. (1970). Response of legumes to prescribed burns in loblolly pine stands of the South Carolina Piedmont. Asheville, NC, USDA Forest Service, Research Note SE-140: 6.</ref> | ||
A total of 24 plants in four new quadrants were recruited postburn study in the Florida scrub – Lake Wales Ridge area.<ref>Weekley, C.W. and E.S. Menges. 2003. Species and vegetation responses to prescribed fire in a long-unburned, endemic-rich Lake Wales ridge scrub. J. Torrey Bot. Soc. 130: 265-282.</ref> | A total of 24 plants in four new quadrants were recruited postburn study in the Florida scrub – Lake Wales Ridge area.<ref>Weekley, C.W. and E.S. Menges. 2003. Species and vegetation responses to prescribed fire in a long-unburned, endemic-rich Lake Wales ridge scrub. J. Torrey Bot. Soc. 130: 265-282.</ref> | ||
− | “Results from previous studies | + | “Results from previous studies<ref>Cushwa, C. T., Czuhai, Eugene, Cooper, R. W., and Julian, W. H. |
+ | 1969. Burning clearcut openings in Ioblolly pine to improve wildlife habitat. Ga. Forest Res. Count. Res. Pap. 61, 5 pp. Cushwa, C. T. and Redd, J. B. 1966. One prescribed burn and its effects on habitat of the Powhatan Game Management Area. Southeast. Forest Exp. %a., U. S. Forest Serv. Res. Note SE-61, 2 pp.</ref> indicate that leguminous plants and seed respond best to “hot” f i r e s - - i . e., those in which a high proportion of the ground fuel is consumed. Laboratory tests<ref>Cushwa, C. T., Martin, R. E., and Miller, R. L. 1968. The effects of fire on seed germination. J. Range Manage. 21: 250-254. M a r t i n , R . E., a n d C u s h w a , C . T. 1966. Effects of heat and moisture on leguminous seed. Fifth Annu. Tall Timbers Fire Ecol. Conf. Proc. 1966: 159-175.</ref> have also shown that seed from several leguminous species germinate best after scarification with moist heat at temperatures near 80” C., a situation requiring a hot fire. The response of the leguminous plants and seed in this study, therefore, would probably have been greater if the pine stands had been burned with more intense fires. Nevertheless, further work will be necessary before we can make final conclusions about the value of prescribed burning to quail and other wildlife in the 2.5 million acres of pine in the South Carolina Piedmont.”<ref name="Cushwa et al 1970"/> | ||
===Pollination=== | ===Pollination=== | ||
===Use by animals=== <!--Herbivory, granivory, insect hosting, etc.--> | ===Use by animals=== <!--Herbivory, granivory, insect hosting, etc.--> |
Revision as of 09:01, 11 June 2015
Galactia regularis | |
---|---|
Scientific classification | |
Kingdom: | Plantae |
Division: | Magnoliophyta - Flowering plants |
Class: | Magnoliopsida – Dicotyledons |
Order: | Fabales |
Family: | Fabaceae ⁄ Leguminosae |
Genus: | Galactia |
Species: | G. regularis |
Binomial name | |
Galactia regularis (L.) Britton, Sterns & Poggenb. | |
Natural range of Galactia regularis from USDA NRCS Plants Database. |
Contents
Description
Distribution
Ecology
Habitat
Phenology
Seed dispersal
Seed bank and germination
Maximum germination was observed for G. regularis at the 80 degrees Celsius dry heat shock treatment. Wet heat (boiling water) treatments, however, resulted in 100% mortality of seeds.[1]
Fire ecology
In a field study of vegetation change in Florida scrub, G. regularis cover increased after fire.[2] However, this increase may not be the direct result of fire. Heat shock germination may play a role in its post-fire recruitment.[1] The amount of G. regularis decreased after a spring burn; decreased slightly after a summer burn; and increased in the control plots.[3] A total of 24 plants in four new quadrants were recruited postburn study in the Florida scrub – Lake Wales Ridge area.[4] “Results from previous studies[5] indicate that leguminous plants and seed respond best to “hot” f i r e s - - i . e., those in which a high proportion of the ground fuel is consumed. Laboratory tests[6] have also shown that seed from several leguminous species germinate best after scarification with moist heat at temperatures near 80” C., a situation requiring a hot fire. The response of the leguminous plants and seed in this study, therefore, would probably have been greater if the pine stands had been burned with more intense fires. Nevertheless, further work will be necessary before we can make final conclusions about the value of prescribed burning to quail and other wildlife in the 2.5 million acres of pine in the South Carolina Piedmont.”[3]
Pollination
Use by animals
Deyrup (2002) observed these bees, Augochlorella aurata, A,gochloropsis metallica, A. szcmptuosa, Nomia maaeei, Anthidiellurn lzotatum rufimaculatum, A. perplexurn, Anthidiuln maczclifrons,Coelioxys gerrnana, C. sayi, Megachilealbitarsis, M. brevis pseudobrevis, M. brirnleyi, M. deflexa, M. exilis parexilis, M. georgica, M.integra, M. mendica, M. petulans, Svastraatripes, Apis mellifera, Bonzbus impatiens, on G. regularis.[7]
Diseases and parasites
Conservation and Management
Cultivation and restoration
Photo Gallery
References and notes
- ↑ 1.0 1.1 Bolin, J. F. (2009). "Heat shock germination responses of three eastern North American temperate species." Castanea 74: 160-167.
- ↑ Weekley, C.W. and E.S. Menges. 2003. Species and vegetation responses to prescribed fire in a long-unburned, endemic-rich Lake Wales ridge scrub. J. Torrey Bot. Soc. 130: 265-282. Bolin, J. F. (2009). "Heat shock germination responses of three eastern North American temperate species." Castanea 74: 160-167.
- ↑ 3.0 3.1 Cushwa, C. T., M. Hopkins, et al. (1970). Response of legumes to prescribed burns in loblolly pine stands of the South Carolina Piedmont. Asheville, NC, USDA Forest Service, Research Note SE-140: 6.
- ↑ Weekley, C.W. and E.S. Menges. 2003. Species and vegetation responses to prescribed fire in a long-unburned, endemic-rich Lake Wales ridge scrub. J. Torrey Bot. Soc. 130: 265-282.
- ↑ Cushwa, C. T., Czuhai, Eugene, Cooper, R. W., and Julian, W. H. 1969. Burning clearcut openings in Ioblolly pine to improve wildlife habitat. Ga. Forest Res. Count. Res. Pap. 61, 5 pp. Cushwa, C. T. and Redd, J. B. 1966. One prescribed burn and its effects on habitat of the Powhatan Game Management Area. Southeast. Forest Exp. %a., U. S. Forest Serv. Res. Note SE-61, 2 pp.
- ↑ Cushwa, C. T., Martin, R. E., and Miller, R. L. 1968. The effects of fire on seed germination. J. Range Manage. 21: 250-254. M a r t i n , R . E., a n d C u s h w a , C . T. 1966. Effects of heat and moisture on leguminous seed. Fifth Annu. Tall Timbers Fire Ecol. Conf. Proc. 1966: 159-175.
- ↑ Deyrup, M. J. E., and Beth Norden (2002). "The diversity and floral hosts of bees at the Archbold Biological Station, Florida (Hymenoptera: Apoidea)." Insecta mundi 16(1-3).