Abstract
Studies across the United States and globally have revealed that mature riparian trees often utilize little streamwater, relying on soil moisture and groundwater instead. Contrastingly, riparian plants growing in wetland systems in the southeastern US use greater proportions of swamp water. The purpose of the present study was to determine if plant water uptake was linked to surface flow regime of the riparian system, characterized by stream flow and standing pond water nearby. Water sources of Liquidambar styraciflua growing along Whetstone Creek, a perennial stream in Stoneville, NC, were determined and compared to those of individuals growing along adjacent spring-fed ponds by analyzing stable isotopic compositions of plant water. Plant water status and environmental variables were also monitored due to possible influences on the specific water sources accessed. It was expected that pondside individuals, due to the lower flow rate and increased pond water availability, would utilize a greater amount of surface water than groundwater, which is shallow at the site, compared to streamside trees. However, trees at both sites appeared to rely about equally on shallow soil and surface water, while groundwater contributed only a minor proportion to trees at both sites. There were no meaningful relationships between the water sources measured and environmental factors, and plant water status was consistently high for trees at both sites. The current study is one of the first to demonstrate quantitatively a strong reliance on surface water by mature riparian trees in the southeastern US.
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References
Berry ZC, Hughes NM, Smith WK (2014) Cloud immersion: an important water source for spruce and fir saplings in the southern Appalachian Mountains. Oecologia 174:319–326
Bowling DR, Schulze ES, Hall SJ (2017) Revisiting streamside trees that do not use stream water: can the two water worlds hypothesis and snowpack isotopic effects explain a missing water source? Ecohydrology 10:e1771
Brinson MM, Malvárez AI (2002) Temperate freshwater wetlands: types, status, and threats. Environ Conserv 29:115–133
Brooks JR, Barnard HR, Coulombe R, McDonnell JJ (2010) Ecohydrologic separation of water between trees and streams in a Mediterranean climate. Nat Geosci 3:100
Brown RL, Peet RK (2003) Diversity and invasibility of southern Appalachian plant communities. Ecology 84:32–39
Brunel J-P (2009) Sources of water used by natural mesquite vegetation in a semi-arid region of northern Mexico. Hydrol Sci J 54:375–381
Burgess SS, Pate JS, Adams MA, Dawson TE (2000) Seasonal water acquisition and redistribution in the Australian woody phreatophyte, Banksia prionotes. Ann Bot 85:215–224
Busch DE, Ingraham NL, Smith SD (1992) Water uptake in woody riparian phreatophytes of the southwestern United States: a stable isotope study. Ecol Appl 2:450–459
Carmichael MJ, White JC, Smith WK (2018) Water source utilization in Taxodium distichum (L.) Rich. (baldcypress) over the course of a growing season in a restored coastal freshwater wetland vulnerable to saltwater incursion. Castanea 83:272–287
Catterall CP, Piper SD, Bunn SE, Arthur JM (2001) Flora and fauna assemblages vary with local topography in a subtropical eucalypt forest. Aust Ecol 26:56–69
Chimner RA, Resh SC (2014) Are riparian bur oak phreatophytic? A stable water isotope study in Homestead National Monument, Nebraska. Nat Areas J 34:56–64
Collingwood G, Brush WD (1947) Knowing your trees. American Foresty Association, Washington, DC
Cook PG, O'Grady AP (2006) Determining soil and ground water use of vegetation from heat pulse, water potential and stable isotope data. Oecologia 148:97–107
Costelloe JF, Payne E, Woodrow IE, Irvine EC, Western AW, Leaney FW (2008) Water sources accessed by arid zone riparian trees in highly saline environments, Australia. Oecologia 156:43–52
Craig H (1961) Isotopic variations in meteoric waters. Science 133:1702–1703
da Sternberg LSL, Swart PK (1987) Utilization of freshwater and ocean water by coastal plants of southern Florida. Ecology 68:1898–1905
Dawson TE (1993) Water sources of plants as determined from xylem-water isotopic composition: perspectives on plant competition, distribution, and water relations. In: Ehleringer JR, Hall AE, Farquhar GD (eds) Stable isotopes and plant carbon-water relations. Academic Press Inc., San Diego, CA, pp 465–496
Dawson TE, Ehleringer JR (1991) Streamside trees that do not use stream water. Nature 350:335–337
Donovan LA, Ehleringer JR (1994) Water stress and use of summer precipitation in a Great Basin shrub community. Funct Ecol 8:289–297
Drake PL, Franks PJ (2003) Water resource partitioning, stem xylem hydraulic properties, and plant water use strategies in a seasonally dry riparian tropical rainforest. Oecologia 137:321–329
Ehleringer JR, Dawson TE (1992) Water uptake by plants: perspectives from stable isotope composition. Plant, Cell Environ 15:1073–1082
Esperón-Rodríguez M, Barradas VL (2015) Ecophysiological vulnerability to climate change: water stress responses in four tree species from the central mountain region of Veracruz, Mexico. Reg Environ Change 15:93–108
Evaristo J, Jasechko S, McDonnell JJ (2015) Global separation of plant transpiration from groundwater and streamflow. Nature 525:91
Evaristo J, Kim M, van Haren J, Pangle LA, Harman CJ, Troch PA, McDonnell JJ (2019) Characterizing the fluxes and age distribution of soil water, plant water, and deep percolation in a model tropical ecosystem. Water Resour Res 55(4):3307–3327
Ewe SML, da Silveira Lobo Sternberg L, Busch DE (1999) Water-use patterns of woody species in pineland and hammock communities of South Florida. For Ecol Manag 118:139–148
Ewe SML, da Sternberg LSL, Childers DL (2007) Seasonal plant water uptake patterns in the saline southeast Everglades ecotone. Oecologia 152:607–616
Hill AR, Labadia CF, Sanmugadas K (1998) Hyporheic zone hydrology and nitrogen dynamics in relation to the streambed topography of a N-rich stream. Biogeochemistry 42:285–310
Horton JL, Kolb TE, Hart SC (2001) Physiological response to groundwater depth varies among species and with river flow regulation. Ecol Appl 11:1046–1059
Kolb TE, Hart SC, Amundson R (1997) Boxelder water sources and physiology at perennial and ephemeral stream sites in Arizona. Tree Physiol 17:151–160
Kormanik PP (1990) Liquidambar styraciflua L. sweetgum. In: Burns RM, Honkala BH (eds) Silvics of North America. USDA Forest Service, Washington, DC, pp 400–405
Lambers H, Chapin FS III, Pons TL (2008) Plant phisiology ecology. Springer, New York
Lambs L, Loubiat M, Richardson W (2003) The use of stable isotopes to evaluate water mixing and water use by flood plain trees along the Garonne valley. Isot Environ Health Stud 39:301–310
Larcher W (2003) Physiological plant ecology: ecophysiology and stress physiology of functional groups. Springer Verlag, Berlin
Lin G, da Sternberg LSL (1994) Utilization of surface water by red mangrove (Rhizophora mangle L.): an isotopic study. Bull Mar Sci 54:94–102
Lin G, Phillips SL, Ehleringer JR (1996) Monsoonal precipitation responses of shrubs in a cold desert community on the Colorado Plateau. Oecologia 106:8–17
Lowrance R, Todd R, Fail J Jr, Hendrickson O Jr, Leonard R, Asmussen L (1984) Riparian forests as nutrient filters in agricultural watersheds. Bioscience 34:374–377
Magette WL, Brinsfield RB, Palmer RE, Wood JD (1989) Nutrient and sediment removal by vegetated filter stips. Trans Am Soc Agric Biol Eng 32:663–667
McDonald RI, Urban DL (2004) Forest edges and tree growth rates in the North Carolina Piedmont. Ecology 85:2258–2266
McIntyre NE (2000) Community structure of Eleodes beetles (Coleoptera: Tenebrionidae) in the shortgrass steppe: scale-dependent uses of heterogeneity. West N Am Nat 60:1–15
Mensforth LJ, Thorburn PJ, Tyerman SD, Walker GR (1994) Sources of water used by riparian Eucalyptus camaldulensis overlying highly saline groundwater. Oecologia 100:21–28
Muttiah RS, White JD, Duke JR, Allen PM (2005) Estimation of source water to cedar elm in a central Texas riparian ecosystem. Hydrol Process 19:475–491
Nakano S, Miyasaka H, Kuhara N (1999) Terrestrial-aquatic linkages: riparian arthropod inputs alter trophic cascades in a stream food web. Ecology 80:2435–2441
Nilsson C, Berggren K (2000) Alterations of riparian ecosystems caused by river regulation dam operations have caused global-scale ecological changes in riparian ecosystems. How to protect river environments and human needs of rivers remains one of the most important questions of our time. Bioscience 50:783–792
Phillips SL, Ehleringer JR (1995) Limited uptake of summer precipitation by bigtooth maple (acer grandidentatum nutt) and gambel's oak (quereusgambelii nutt). Trees-Struc Func 9(4):214–219
Poff B, Koestner KA, Neary DG, Henderson V (2011) Threats to riparian ecosystems in Western North America: an analysis of existing literature. J Am Water Resour Assoc 47:1241–1354
Radford AE, Ahles HE, Bell CR (1968) Manual of the vascular flora of the Carolinas. The University of North Carolina Press, Chapel Hill
Retzlaff WA, Blaisdell GK, Topa MA (2001) Seasonal changes in water source of four families of loblolly pine (Pinus taeda L.). Trees 15:154–162
Sabater S, Butturini A, Clement J-C et al (2003) Nitrogen removal by riparian buffers along a European climatic gradient: patterns and factors of variation. Ecosystems 6:20–30
Sargent CS (1922) Liquidambar styraciflua L., manual of the trees of North America (exclusive of Mexico). Houghton Mifflin Company, Boston, MA, pp 367–368
Schmidt M, Maseyk K, Lett C, Biron P, Richard P, Bariac T, Seibt U (2012) Reducing and correcting for contamination of ecosystem water stable isotopes measured by isotope ratio infrared spectroscopy. Rapid Commun Mass Spectrom 26:141–153
Schultz NM, Griffis TJ, Lee X, Baker JM (2011) Identification and correction of spectral contamination in 2H/1H and 18O/16O measured in leaf, stem, and soil water. Rapid Commun Mass Spectrom 25:3360–3368
Singer MB, Stella JC, Dufour S, Piégay H, Wilson RJS, Johnstone L (2012) Contrasting water-uptake and growth responses to drought in co-occurring riparian tree species. Ecohydrology 6:402–412
Smith SD, Wellington AB, Nachlinger JL, Fox CA (1991) Functional responses of riparian vegetation to streamflow diversion in the eastern Sierra Nevada. Ecol Appl 1:89–97
Snyder KA, Williams DG (2000) Water sources used by riparian trees varies among stream types on the San Pedro River, Arizona. Agric Forest Meteorol 105:227–240
Snyder KA, Williams DG (2003) Defoliation alters water uptake by deep and shallow roots of Prosopis velutina (Velvet Mesquite). Funct Ecol 17:363–374
Stock BC, Semmens BX (2016) MixSIAR GUI user manual. Version 3.1
Tabacchi E, Lambs L, Guilloy H, Planty-Tabacchi A-M, Muller E, Decamps H (2000) Impacts of riparian vegetation on hydrological processes. Hydrol Process 14:2959–2976
Thorburn PJ, Walker GR (1993) The source of water transpired by Eucalyptus camaldulensis: soil, groundwater, or streams? In: Ehleringer JR, Hall AE, Farquhar GD (eds) Stable isotopes and plant carbon-water relations. Academic Press Inc., San Diego, CA, pp 511–527
Thorburn PJ, Walker GR (1994) Variations in stream water uptake by Eucalyptus camaldulensis with differing access to stream water. Oecologia 100:293–301
Thorburn P, Walker G, Hatton T (1992) Are river red gums taking water from soil, groundwater or streams? Catchments of green: a national conference on vegetation & water management, Adelaide, SA, pp 63–68
Wang P, Liu W, Zhang J, Yang B, Singh AK, Wu J, Jiang X (2019) Seasonal and spatial variations of water use among riparian vegetation in tropical monsoon region of SW China. Ecohydrology 12:e2085
Ward J, Tockner K, Arscott D, Claret C (2002) Riverine landscape diversity. Freshwater Biol 47:517–539
Weakley AS (2015) Flora of the southern and mid-Atlantic states. University of North Carolina Herbarium, University of North Carolina, Chapel Hill
West AG, Patrickson SJ, Ehleringer JR (2006) Water extraction times for plant and soil materials used in stable isotope analysis. Rapid Commun Mass Spectrom 20:1317–1321
West AG, Goldsmith GR, Brooks PD, Dawson TE (2010) Discrepancies between isotope ratio infrared spectroscopy and isotope ratio mass spectrometry for the stable isotope analysis of plant and soil waters. Rapid Commun Mass Spectrom 24:1948–1954
West AG, Goldsmith GR, Matimati I, Dawson TE (2011) Spectral analysis software improves confidence in plant and soil water stable isotope analyses performed by isotope ratio infrared spectroscopy (IRIS). Rapid Commun Mass Spectrom 25:2268–2274
White JC, Smith WK (2013) Water sources in riparian trees of the southern Appalachian foothills, USA: a preliminary study with stable isotope analysis. Riparian Ecol Conserv 1:46–52
White JC, Smith WK (2015) Seasonal variation in water sources of the riparian tree species Acer negundo and Betula nigra in the southern Appalachian foothills, USA. Botany 93:519–528
White JWC, Cook ER, Lawrence JR, Wallace S (1985) The D/H ratios of sap in trees: implications for water sources and tree ring D/H ratios. Geochim Cosmochim Acta 49:237–246
Woinarski J, Brock C, Armstrong M, Hempel C, Cheal D, Brennan K (2000) Bird distribution in riparian vegetation in the extensive natural landscape of Australia’s tropical savanna: a broad-scale survey and analysis of a distributional data base. J Biogeogr 27:843–868
Acknowledgements
Funding for the study was provided by a Vecellio Award, Wake Forest University, Department of Biology. We would like to express our appreciation to Bob and Marie Irving for allowing us to conduct our study on their property. We also thank Carter Berry and Mary Jane Carmichael for help with the project design and manuscript development, as well as Billy Nicholson, Brenton Smith, and Jennifer White for field assistance.
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White, J.C., Smith, W.K. Water source utilization under differing surface flow regimes in the riparian species Liquidambar styraciflua, in the southern Appalachian foothills, USA. Plant Ecol 221, 1069–1082 (2020). https://doi.org/10.1007/s11258-020-01062-9
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DOI: https://doi.org/10.1007/s11258-020-01062-9