Effects of the Hemlock Woolly Adelgid on Nitrogen Losses from Urban and Rural Northern Forest Ecosystems
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The objectives of this study were to quantify rates of nitrogen inputs to the forest floor, determine rates of nitrogen losses via leaching and to partition the sources of NO3 − from healthy, declining, and salvage or preemptively cut eastern hemlock (Tsuga canadensis) stands in both an urban forest at the Arnold Arboretum in Boston, MA and a rural forest at Harvard Forest in Petersham, MA. Rates of nitrogen inputs (NH4 + and NO3 −) to the forest floor were 4–5 times greater, and rates of nitrogen losses via leachate were more than ten times greater, at the Arnold Arboretum compared to Harvard Forest. Nitrate that was lost via leachate at Harvard Forest came predominantly from atmospheric deposition inputs, whereas NO3 − losses at the Arnold Arboretum came predominantly from nitrification. Although our study was limited to one urban and one rural site, our results suggest that current management regimes used to control the hemlock woolly adelgid (Adelges tsugae), such as salvage cutting, may be reducing nitrogen losses in urban areas due to rapid regrowth of vegetation and uptake of nitrogen by those plants. In contrast, preemptive cutting of trees in rural areas may be leading to proportionately greater losses of nitrogen in those sites, though the total magnitude of nitrogen lost is still smaller than in urban sites. Results of our study suggest that the combination of the hemlock woolly adelgid, nitrogen inputs, and management practices lead to changes in the movement and source of NO3 − losses from eastern hemlock forest ecosystems.
- Albani M, Moorcroft PR, Ellison AM, Orwig DA, Foster DR. 2010. Predicting the impact of hemlock Woolly Adelgid on carbon dynamics of Eastern U.S. forests. Can J For Res 40:119–33. CrossRef
- Böttcher J, Strebel O, Voerkelius S, Schmidt HL. 1990. Using isotopic fractionation of nitrate-nitrogen and nitrate-oxygen for the evaluation of microbial denitrification in a sandy aquifer. J Hydrol 114:413–24. CrossRef
- Burns DA, Kendall C. 2002. Analysis of sources of δ15N and δ18O to differentiate NO3 − sources in runoff at two watersheds in the Catskill Mountains of New York. Water Res Res 38. doi:10.1029/2001WR000292.
- Cabrera ML, Beare MH. 1993. Alkaline persulfate oxidation for determining total nitrogen in microbial biomass extracts. Soil Sci Soc Am J 57:1007–12. CrossRef
- Campbell DH, Kendall C, Chang CCCY, Silva SR, Tonnessen KA. 2002. Pathways for nitrate release from an alpine watershed: determination using δ18O and δ15N. Water Resour Res 38:10–1029.
- Casciotti KL, Sigman DM, Galanter Hastings M, Böhlke JK, Hilkert A. 2002. Measurement of the oxygen isotopic composition of nitrate in seawater and freshwater using the denitrifier method. Anal Chem 74:4905–12. CrossRef
- Cobb RC. 2010. Species shift drives decomposition rates following invasion by hemlock woolly adelgid. Oikos 119:1291–8. CrossRef
- DeNiro M, Epstein S. 1981. Influence of diet on the distribution of nitrogen isotopes in animals. Geochim Cosmochim Acta 45:341–51. CrossRef
- Durka W, Schulze E, Gebauer G, Voerkelius S. 1994. Effects of forest decline on uptake and leaching of deposited nitrate determined from 15N and 18O measurements. Nature 372:765–7. CrossRef
- Elliott EM, Kendall C, Wankel SD, Burns DA, Boyer EW, Harlin K, Bain DJ, Butler TJ. 2007. Nitrogen isotopes as indicators of NOx source contributions to atmospheric nitrate deposition across the Midwestern and northeastern United States. Environ Sci Technol 41:7661–7. CrossRef
- Ellison AM, Bank MS, Clinton BD, Colburn EA, Elliott K, Ford CR, Foster DR, Kloeppel BD, Knoepp JD, Lovett GM, Mohan J, Orwig DA, Rodenhouse NL, Sobczak WV, Stinson KA, Stone JK, Swan CM, Thompson J, Von Holle B, Webster JR. 2005. Loss of foundation species: consequences for the structure and dynamics of forested ecosystems. Front Ecol Environ 3:479–86. CrossRef
- Ellison AM, Barker-Plotkin AA, Foster DR, Orwig DA. 2010. Experimentally testing the role of foundation species in forests: the Harvard Forest hemlock removal experiment. Methods Ecol Evol 1:168–79. CrossRef
- Finzi AC, Van Breeman N, Canham CD. 1998. Canopy tree-soil interactions within temperate forests: species effects on soil carbon and nitrogen. Ecol Appl 8:440–6.
- Fisk M, Fahey TJ. 1990. Nitrification potential in the organic horizons following clearfelling of northern hardwood forests. Soil Biol Biochem 22:277–9. CrossRef
- Foster DR, Orwig DA. 2006. Preemptive and salvage harvesting of New England forests: when doing nothing is a viable alternative. Conserv Biol 20:959–70. CrossRef
- Giblin AE, Laundre JA, Nadelhoffer KJ, Shaver GR. 1994. Measuring nutrient availability in Arctic soils using ion-exchange resins: a field test. Soil Sci Soc Am 58:1154–62. CrossRef
- Heaton THE. 1990. Nitrogen-15/nitrogen-14 ratios of NOx from vehicle engines and coal-fired power stations. Tellus 42B:304–7.
- Jenkins JC, Aber JD, Canham CD. 1999. Hemlock woolly adelgid impacts on community structure and N cycling rates in eastern hemlock forests. Can J For Res 29:630–45. CrossRef
- Kendall C, Silva SR, Chang CCY, Burns DA, Campbell DH, Shanley JB. 1996. Use of the δ18O and δ15N of nitrate to determine sources of nitrate in early spring runoff in forest catchments. In Symposium on Isotopes in Water Resources Management, Vienna, Austria. 20–24 Mar 1995. IAEA-SM-336/29. International Atomic Energy Agency, Vienna, pp 167–76.
- Kendall C, McDonnell JJ, Eds. 1998. Isotope tracers in catchment hydrology. Amsterdam: Elsevier Science B.V. p 839.
- Kernan B. 1980. Simes tract report. Harvard Forest Archives, Harvard Forest, Petersham, MA.
- Kizlinski ML, Orwig DA, Cobb RC, Foster DR. 2002. Direct and indirect ecosystem consequences of an invasive pest on forests dominated by eastern hemlock. J Biogeogr 29:1489–503. CrossRef
- Lovett GM. 1994. Atmospheric deposition of nutrients and pollutants in North America: an ecological perspective. Ecol Appl 4:629–50. CrossRef
- Lovett GM, Weathers KC, Arthur MA, Schultz JC. 2004. Nitrogen cycling in a northern hardwood forest: do species matter? Biogeochemistry 67:289–308. CrossRef
- Lux H. 2009. A changing forest examined. In Silva—Journal of the Arnold Arboretum of Harvard University. Fall/Winter 2009–2010 Newsletter.
- Magill AM, Aber JD, Currie WS, Nadelhoffer KJ, Martin ME, McDowell WH, Melillo JM, Steudler P. 2004. Ecosystem response to 15 years of chronic nitrogen additions at the Harvard Forest LTER, Massachusetts, USA. For Ecol Manag 196:7–28. CrossRef
- McClure MS. 1987. Biology and control of hemlock woolly adelgid. Bulletin of the Connecticut Agricultural Experiment Station, New Haven 851.
- McClure MS, Cheah C. 1999. Reshaping the ecology of invading populations of hemlock woolly adelgid, Adelges tsugae (Homoptera: Adelgidae), in eastern North America. Biol Invasions 1:247–54. CrossRef
- McDowell WH, Magill AH, Aitkenhead-Peterson JA, Aber JD, Merriam JL, Kaushal SS. 2004. Effects of chronic nitrogen amendment on dissolved organic matter and inorganic nitrogen in soil solution. For Ecol Manag 196:29–41. CrossRef
- McClaugherty CA, Pastor J, Aber JD, Melillo JM. 1985. Forest litter decomposition in relation to soil nitrogen dynamics and litter quality. Ecology 66:266–75. CrossRef
- Moore H. 1977. The isotopic composition of ammonia, nitrogen dioxide and nitrate in the atmosphere. Atmos Environ 11:1239–43. CrossRef
- Munger JW, Wofsy SC, Bawkin PS, Fan S, Goulden ML, Daube BC, Goldstein AH. 1996. Atmospheric deposition of reactive nitrogen oxides and ozone in a temperate deciduous forest and a subarctic woodland. 1. Measurements and mechanisms. J Geophys Res 101(D7):12,639–57.
- Nadelhoffer KJ, Colman BP, Currie WS, Magill A, Aber JD. 2004. Decadal-scale fates of 15 N tracers added to oak and pine stands under ambient and elevated N inputs at the Harvard Forest (USA). For Ecol Manag 196:89–107. CrossRef
- National Atmospheric Deposition Program (NRSP-3). 2010. NADP Program Office, Illinois State Water Survey, 2204 Griffith Dr., Champaign, IL 61820.
- Nuckolls AE, Wurzburger N, Ford CR, Hendrick RL, Vose JM, Kloeppel BD. 2009. Hemlock declines rapidly with hemlock woolly adelgid infestation: impacts on the carbon cycle of southern Appalachian forests. Ecosystems 12:179–90. CrossRef
- Ohte N, Sebestyen SD, Shanley JB, Doctor DH, Kendall C, Wankel SD, Boyer EW. 2004. Tracing sources of nitrate in snowmelt runoff using a high-resolution isotopic technique. Geophys Res Lett 31:L21506. CrossRef
- Ollinger SC, Aber JD, Lovett GM, Millham SE, Lathrop RG, Ellis JM. 1993. A spatial model of atmospheric deposition for the northeastern U.S. Ecol Appl 3:459–72. CrossRef
- Orwig DA, Foster DR. 1998. Forest response to the introduced hemlock woolly adelgid in southern New England, USA. Bull Torrey Bot Club 125:60–73.
- Orwig DA, Foster DR, Mausel DL. 2002. Landscape patterns of hemlock decline in New England due to the introduced hemlock woolly adelgid. J Biogeogr 29:1475–87. CrossRef
- Orwig DA, Cobb RC, D’Amato AW, Kizlinski ML, Foster DR. 2008. Multi-year ecosystem response to hemlock woolly adelgid infestation in southern New England Forests. Can J For Res 38:834–43. CrossRef
- Orwig D, Foster D. 2009. Impacts of hemlock woolly adelgid at the Arnold Arboretum. Harvard Forest Data Archive: HF061.
- Pardo LH, Kendall C, Pett-Ridge J, Chang CCY. 2004. Evaluating the source of streamwater nitrate using δ15N and δ18O in nitrate in two watersheds in New Hampshire, USA. Hydrol Process 18:2699–712. CrossRef
- Schultz JAM. 1994. Urban wet deposition nitrate: a comparison to non-urban deposition. For Ecol Manag 73:83–93.
- Skinner M, Parker BL, Couli S, Ashikaga T. 2003. Regional responses of hemlock woolly adelgid (Homoptera: Adelgidae) to low temperatures. Environ Entomol 32:523–8. CrossRef
- Stadler B, Müller T, Orwig D, Cobb R. 2005. Hemlock woolly adelgid in New England forests: canopy impacts transforming ecosystem processes and landscapes. Ecosystems 8:233–47. CrossRef
- Stadler B, Müller T, Orwig D. 2006. The ecology of energy and nutrient fluxes in hemlock forests invaded by hemlock woolly adelgid. Ecology 87:1792–804. CrossRef
- Templer P, Findlay S, Lovett G. 2003. Soil microbial biomass and nitrogen transformations among five tree species of the Catskill Mountains, New York, USA. Soil Biol Biochem 35:607–13. CrossRef
- Templer PH, Lovett G, Weathers K, Findlay S, Dawson T. 2005. Influence of tree species on on forest nitrogen retention in the Catskill Mountains, New York, USA. Ecosystems 8:1–16. CrossRef
- Templer PH, Arthur MA, Lovett GM, Weathers K. 2007. Plant and soil natural abundance δ15N: indicators of relative rates of nitrogen cycling in temperate forest ecosystems. Oecologia 153:399–406. CrossRef
- Van Breeman N, Boyer EW, Goodale CL, Jaworski NA, Paustian K, Seitzinger SP, Lajtha K, Mayer B, Van Dam D, Howarth RW, Nadelhoffer KJ, Eve M, Billen G. 2002. Where did all the nitrogen go? Fate of nitrogen inputs to large watersheds in the northeastern U.S.A. Biogeochemistry 57(58):267–93. CrossRef
- Vance ED, Brookes PC, Jenkinson DS. 1987. An extraction method for measuring soil microbial biomass. Soil Biol Biochem 19:703–7. CrossRef
- Willard KWJ, DeWalle DR, Edwards PJ, Sharpe WE. 2001. 18O isotopic separation of stream nitrate sources in mid-Appalachian forested watersheds. J Hydrol 252:174–88. CrossRef
- Young RF, Shields KS, Berlyn GP. 1995. Hemlock woolly adelgid (Homoptera: Adelgidae): stylet bundle insertion and feeding sites. Ann Entomol Soc Am 88:827–35.
- Yorks TE, Leopold DJ, Raynal DJ. 2003. Effects of Tsuga canadensis mortality on soil water chemistry and understory vegetation: possible consequences of an invasive insect herbivore. Can J For Res 33:1525–37. CrossRef
- Effects of the Hemlock Woolly Adelgid on Nitrogen Losses from Urban and Rural Northern Forest Ecosystems
Volume 13, Issue 8 , pp 1215-1226
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- forest insect outbreak
- invasive species
- natural abundance stable isotopes
- nitrate sources
- nitrogen saturation
- pest management
- Tsuga canadensis