Comparative Gas Exchange of Juniperus ashei (Ashe Juniper, Cupressaceae) at Ambient and Elevated Levels of Light, CO2 Concentration and Temperature with Potential Influences on Community Structure
Juniperus ashei (Ashe juniper, Cupressaceae) is a shrub or small tree found in woodlands and savannas of central and western Texas, northern Mexico, Missouri, Arkansas and Oklahoma. Environmental conditions where this species is found are stressful due to mostly shallow soils, high summer temperatures, low and inconsistent rainfall. Juniperus ashei has increased in density from the distant past not because of elevated CO2 or increased temperature, but lower fire frequency and reduced competition with prairie grasses because of heavy grazing. This study demonstrates that J. ashei functions as a sun species and juveniles beginning growth in canopy shade most likely will not be recruited into the canopy. Juniperus ashei is a sun species because the Amax (maximum photosynthetic rate) is high and increased significantly (45%) with increased CO2 concentrations to 17.20 μmol CO2?m?2?s?1 at the highest CO2 concentration tested (780 μL/L) but did not change with increased temperature. Dark respiration (Rd) doubled when temperature increased but did not change with CO2 concentrations. Intercellular CO2 increased as the CO2 concentration increased but not with temperature. Light saturation (Lsp) and water use efficiency (WUE) increased significantly when light levels and CO2 concentrations were elevated but not when temperatures were elevated. Stomatal conductance decreased when the CO2 concentration increased, but not by elevated temperature. There was a significant interaction for WUE that increased with increased light level and CO2 concentration, but decreased overall with temperature. This suggests J. ashei juveniles in canopy shade will be more stressed at high CO2 and elevated temperatures in low light reducing recruitment into the canopy.
References
[1]
Begon, M. and Townsend, C.R. (2021) Ecology: From Individuals to Ecosystems. Wiley and Company. https://www.amazon.com
[2]
Grunstra, M.B. and Van Auken, O.W. (2024) Gas Exchange Rates of Texas Persimmon (Diospyros texana) in Central Texas Woodlands. AmericanJournalofPlantSciences, 15, 329-348. https://doi.org/10.4236/ajps.2024.155024
[3]
World Meteorological Organization (WMO) (2024) State of the Global Climate 2023. WMO-No 1347.
[4]
Ehleringer. J.R., Cerling, T.E. and Dearing, M.D. (2005) A History of Atmospheric CO2 and Its Effects on Plants, Animal, and Ecosystems. Springer Science + Business Media. https://doi.org/10.1007/b138533
[5]
Kunzig, R. (2011) World without Ice. National Geographic 220, 90-109. https://www.nationalgeographic.com
[6]
Petit, J.R., Jouzel, J., Raynaud, D., Barkov, N.I., Barnola, J., Basile, I., et al. (1999) Climate and Atmospheric History of the Past 420,000 Years from the Vostok Ice Core, Antarctica. Nature, 399, 429-436. https://doi.org/10.1038/20859
[7]
NOAA Climate (2024) National Oceanic and Atmospheric Administration.
Sims, P.L. (1988) Grasslands. In: Barbour, M.G. and Billings, W.D., Eds., North American Terrestrial Vegetation, Cambridge University Press. https://assets.cambridge.org/97805215/50277/sample/9780521550277wsn01.pdf
[10]
Collins, S.L. and Wallace, L.L. (1990) Fire in North American Tallgrass Prairies. University of Oklahoma Press. https://www.oupress.com
[11]
Archer, S., Schimel, D.S. and Holland, E.A. (1995) Mechanisms of Shrubland Expansion: Land Use, Climate or CO2? ClimaticChange, 29, 91-99. https://doi.org/10.1007/bf01091640
[12]
Van Auken, O.W. (2000) Shrub Invasions of North American Semiarid Grasslands. AnnualReviewofEcologyandSystematics, 31, 197-215. https://doi.org/10.1146/annurev.ecolsys.31.1.197
[13]
Dick-Peddie, W.A. (1993) New Mexico, Vegetation: Past, Present and Future. University of New Mexico Press. https://www.amazon.com
[14]
Breshears, D.D., Nyhan, J.W., Heil, C.E. and Wilcox, B.P. (1998) Effects of Woody Plants on Microclimate in a Semiarid Woodland: Soil Temperature and Evaporation in Canopy and Intercanopy Patches. InternationalJournalofPlantSciences, 159, 1010-1017. https://doi.org/10.1086/314083
[15]
Van Auken, O.W. (2018) Ecology of Plant Communities of South-Central Texas. Scientific Research Publishing. https://www.amazon.com
[16]
Barbour, M.G. and Billings, W.D. (1988) North American Terrestrial Vegetation. Cambridge University Press. https://www.amazon.com
McKinley, D.C. and Van Auken, O.W. (2005) Influence of Interacting Factors on the Growth and Mortality of Juniperus Seedlings. TheAmericanMidlandNaturalist, 154, 320-330. https://doi.org/10.1674/0003-0031(2005)154[0320:ioifot]2.0.co;2
[19]
Kain, M., Battaglia, L., Royo, A. and Carson, W.P. (2011) Over-Browsing in Pennsylvania Creates a Depauperate Forest Dominated by an Understory Tree: Results from a 60-Year-Old Deer Exclosure. TheJournaloftheTorreyBotanicalSociety, 138, 322-326. https://doi.org/10.3159/torrey-d-11-00018.1
[20]
Adkins, J.S. and Van Auken, O.W. (2023) Survival and Mortality of Protected and Non-Protected Juniperus Ashei Seedlings in Central Texas Juniper/Live Oak Wood-land. Phytologia, 1053, 84-90.
[21]
Amos, B.B. and Gehlbach, F.R. (1988) Edwards Plateau Vegetation: Plant Ecological Studies in Central Texas. Baylor University Press. https://www.baylorpress.com/9780918954503/edwards-plateau-vegetation/
[22]
Elliott, L.F. et al. (2014) Ecological Mapping Systems of Texas: Summary Report. Texas Parks and Wildlife Department. https://tpwd.texas.gov/gis/programs/landscape-ecology/supporting-documents/final-summary-report/
[23]
Hora, B. (1981) The Oxford Encyclopedia of Trees of the World. Oxford University Press. https://www.amazon.com
[24]
Poole, J.M., et al. (2007) Rare Plants of Texas. Texas A&M Nature Guides. Texas Parks and Wildlife. Ever Best Printing. https://www.tamupress.com
[25]
Smeins, F.E. and Merrill, L.B. (1988) Long-Term Change in a Semiarid Grassland. In: Amos, B.B. and Gehlbach, F.R., Eds., Edwards Plateau Vegetation, Baylor University Press.
[26]
Van Auken, O.W., et al. (2022) Isolated Deciduous Woodlands in Central Texas. Phytologia, 104, 13-23. https://www.phytologia.org/uploads/2/3/4/2/23422706/104_3_13-23vanaukendeciduous_woodlands8-15-22.pdf
[27]
Terletsky, P.A. and Van Auken, O.W. (1996) Comparison of Cedar Glades and Associated Woodlands of the Southern 8 Edwards Plateau. Texas Journal of Science, 48, 55-67. https://www.thefreelibrary.com/Comparison+of+cedar+glades+and+associated+woodlands+of+the+southern...-a0128678772
[28]
Auken, O.W.V. (2000) Characteristics of Intercanopy Bare Patches in Juniperus Woodlands of the Southern Edwards Plateau, Texas. TheSouthwesternNaturalist, 45, 95-110. https://doi.org/10.2307/3672449
[29]
McKinley, D.C., et al. (2008) Altered Ecosystem Processes as a Consequence of Juniperus virginiana L. Encroachment into North American Tallgrass Prairie. In: Van Auken, O.W., Ed., Western North American Juniperus Communities: A Dynamic Vegetation Type, Springer.
[30]
Mosier, A.R. (2001) Exchange of Gaseous Nitrogen Compounds between Agricultural Systems and the Atmosphere. PlantandSoil, 228, 17-27. https://doi.org/10.1023/a:1004821205442
[31]
Jandl, R., Lindner, M., Vesterdal, L., Bauwens, B., Baritz, R., Hagedorn, F., et al. (2007) How Strongly Can Forest Management Influence Soil Carbon Sequestration? Geoderma, 137, 253-268. https://doi.org/10.1016/j.geoderma.2006.09.003
[32]
Melillo, J.M., Butler, S., Johnson, J., Mohan, J., Steudler, P., Lux, H., et al. (2011) Soil Warming, Carbon-Nitrogen Interactions, and Forest Carbon Budgets. Proceedings of the National Academy of Sciences of the United States of America, 108, 9508-9512. https://doi.org/10.1073/pnas.1018189108
[33]
Vitousek, P. (1982) Nutrient Cycling and Nutrient Use Efficiency. TheAmericanNaturalist, 119, 553-572. https://doi.org/10.1086/283931
[34]
Grunstra, M.B. (2008) Investigation of Juniperus Woodland Replacement Dynamics. Ph.D. Thesis, The University of Texas. https://www.scirp.org
[35]
Eddy, K. (2019) How Does Increased Atmospheric Carbon Dioxide Concentration Affect Plant Competition? Ph.D. Thesis, The University of Texas.
[36]
Wang, S. et al. (2020) Recent Global Decline of CO2 Fertilization Effects on Vegetation Photosynthesis. Science, 370, 1295-1300.
[37]
Wayne, E.R. and Van Auken, O.W. (2012) Comparisons of Gas Exchange of Several Sedges and C4 Grasses in Associated Savanna Communities. Phytologia, 94, 71-90. https://www.phytologia.org/uploads/2/3/4/2/23422706/94171-90wayne_and_va-sedges_and_c4_grasses.pdf
[38]
Van Auken, O.W. (1988) Woody Vegetation of the Southeastern Escarpment and Plateau. In: Amos, B.B. and Gehlbach, F.R., Eds., Edwards Plateau Vegetation, Bay-lor University Press, 43-55. https://www.baylorpress.com
[39]
Van Auken, O.W., Bush, J.K., Taylor, D.L. and Singhurst, J.R. (2023) Lack of Woody Species Recruitment in Isolated Deep Canyon Deciduous Woodlands in Central Texas, Usa1. The Journal of the Torrey Botanical Society, 150, 525-537. https://doi.org/10.3159/torrey-d-23-00009.1
[40]
United States Department of Agriculture (USDA) (2000) Natural Resources Conservation Service. Soil Survey Division. Official Series Descriptions. https://soilseries.sc.egov.usda.gov/
[41]
Taylor, F.B., Hailey, R.B. and Richmond, D.L. (1966) Soil Survey of Bexar County, Texas. USDA, Soil Conservation Service. https://www.scirp.org
[42]
Arbingast, S.A. et al. (1976) Atlas of Texas. 5th Edition, Bureau of Business Research, University of Texas Press. https://tamug-ir.tdl.org
[43]
National Oceanic and Atmospheric Administration (NOAA) (2024) National Climatic Data Center. https://www.ncdc.noaa.gov/cdo-web/
[44]
Van Auken, O.W., Ford, A.L. and Allen, J.L. (1981) An Ecological Comparison of Upland Deciduous and Evergreen Forests of Central Texas. American Journal of Botany, 68, 1249-1256. https://doi.org/10.1002/j.1537-2197.1981.tb07832.x
[45]
Turner, C.L. and Knapp, A.K. (1996) Responses of a C4 Grass and Three C3 Forbs to Variation in Nitrogen and Light in Tallgrass Prairie. Ecology, 77, 1738-1749. https://doi.org/10.2307/2265779
[46]
Sall, J., Creighton, L. and Lehman, A. (2011) JMP Pro. SAS Institute, Inc. https://www.scirp.org
[47]
Little, E.L. (1971) Atlas of United States Trees. Volume 1, Conifers and Important Hardwoods. U.S. Dept. of Agriculture, Forest Service. https://doi.org/10.5962/bhl.title.130546
[48]
Elias, T.S. (1980) The Complete Trees of North America. Van Nostrand Reinhold. https://www.amazon.com
[49]
Van Auken, O.W. and Smeins, F. (2008) Western North American Juniperus Communities: Patterns and Causes of Distribution and Abundance. In: Van Auken, O.W., Ed., Western North American Juniperus Communities, Springer, 3-18. https://doi.org/10.1007/978-0-387-34003-6_1
[50]
Hull, J.C. (2002) Photosynthetic Induction Dynamics to Sunflecks of Four Deciduous Forest Understory Herbs with Different Phenologies. International Journal of Plant Sciences, 163, 913-924. https://doi.org/10.1086/342633
[51]
Valladares, F. and Niinemets, Ü. (2008) Shade Tolerance, a Key Plant Feature of Complex Nature and Consequences. Annual Review of Ecology, Evolution, and Systematics, 39, 237-257. https://doi.org/10.1146/annurev.ecolsys.39.110707.173506
[52]
Van Auken, O.W. and Bush, J.K. (2009) The Role of Photosynthesis in the Recruitment of Juvenile Quercus Gambelii into Mature Q. Gambelii Communities. The Journal of the Torrey BotanicalSociety, 136, 465-478. https://doi.org/10.3159/09-ra-035.1
[53]
Van Auken, O.W., Jackson, J.T. and Jurena, P.N. (2005) Survival and Growth of Juniperus Seedlings in Juniperus Woodlands. PlantEcology, 175, 245-257. https://doi.org/10.1007/s11258-005-0022-z
[54]
Doughty, R.W. (1983) Wildlife and Man in Texas: Environmental Change and Conservation. Texas A & M University Press.
[55]
Krueger, L.M., Peterson, C.J., Royo, A. and Carson, W.P. (2009) Evaluating Relationships among Tree Growth Rate, Shade Tolerance, and Browse Tolerance Following Disturbance in an Eastern Deciduous Forest. CanadianJournalofForestResearch, 39, 2460-2469. https://doi.org/10.1139/x09-155
[56]
Anderson, R.C. and Loucks, O.L. (1979) White-Tail Deer (Odocoileus virginianus) Influence on Structure and Composition of Tsuga Canadensis Forests. TheJournalofAppliedEcology, 16, 855-861. https://doi.org/10.2307/2402859
[57]
Augustine, D.J. and Frelich, L.E. (1998) Effects of White-Tailed Deer on Populations of an Understory Forb in Fragmented Deciduous Forests. ConservationBiology, 12, 995-1004. https://doi.org/10.1046/j.1523-1739.1998.97248.x
[58]
Russell, F.L., Zippin, D.B. and Fowler, N.L. (2001) Effects of White-Tailed Deer (Odocoileus virginianus) on Plants, Plant Populations and Communities: A Review. TheAmericanMidlandNaturalist, 146, 1-26. https://doi.org/10.1674/0003-0031(2001)146[0001:eowtdo]2.0.co;2
[59]
Abrams, M.D. and Johnson, S.E. (2012) Long-Term Impacts of Deer Exclosures on Mixed-Oak Forest Composition at the Valley Forge National Historical Park, Pennsylvania, USA. TheJournaloftheTorreyBotanicalSociety, 139, 167-180. https://doi.org/10.3159/torrey-d-11-00075.1
[60]
Bond, W.J. (2008) What Limits Trees in C4 Grasslands and Savannas? AnnualReviewofEcology, Evolution, andSystematics, 39, 641-659. https://doi.org/10.1146/annurev.ecolsys.39.110707.173411
[61]
Leonard, W.J. and Auken, O.W.V. (2013) Light Levels and Herbivory Partially Explain the Survival, Growth, and Niche Requirements of Streptanthusbracteatus A. Gray (Bracted Twistflower, Brassicaceae), a Rare Central Texas Endemic. NaturalAreasJournal, 33, 276-285. https://doi.org/10.3375/043.033.0306
[62]
Van Auken, O.W. and McKinley, D.C. (2008) Structure and Composition of Juniperus Communities and Factors That Control Them. In: Van Auken, O.W., Ed., Western North American Juniperus Communities, Springer, 19-47. https://doi.org/10.1007/978-0-387-34003-6_2
[63]
Van Auken, O.W. and Bush, J.K. (2013) Invasion of Woody Legumes. Springer. https://doi.org/10.1007/978-1-4614-7199-8
[64]
Cadenasso, M.L., Pickett, S.T.A. and Morin, P.J. (2002) Experimental Test of the Role of Mammalian Herbivores on Old Field Succession: Community Structure and Seedling Survival. JournaloftheTorreyBotanicalSociety, 129, 228-237. https://doi.org/10.2307/3088773
[65]
Wayne, E.R. and Van Auken, O.W. (2024) Drought Tolerance and Recovery of the Sedge Carexplanostachys (Cyperaceae) from Central Texas Woodlands. AmericanJournalofPlantSciences, 15, 746-765. https://doi.org/10.4236/ajps.2024.159048
[66]
Korsakova, S., Plugatar, Y., Pashtetsky, A. and Ilnitsky, O. (2020) Influence of Abiotic Factors on CO2-Gas Exchange of Pinuspallasiana, Juniperusexcelsa and Arbutusandrachne. E3SWebofConferences, 224, Article ID: 04017. https://doi.org/10.1051/e3sconf/202022404017
