Whole-stream metabolism in nutrient-poor calcareous streams on Öland, Sweden
Tóm tắt
Từ khóa
Tài liệu tham khảo
Acuña V, Vilches C, Giorgi A (2011) As productive and slow as a stream can be-the metabolism of a Pampean stream. JNABS 30:71–83
Benson A, Zane M, Becker TE, Visser A, Uriostegui SH, DeRubeis E, Moran JE, Esser BK, Clark JF (2014) Quantifying reaeration rates in alpine streams using deliberate gas tracer experiments. Water 6:1013–1027
Bernot MJ, Sobota DJ, Hall RO, Mulholland PJ, Dodds WK, Webster JR, Tank JL, Ashkenas LR, Cooper LW, Dahm CN, Gregory SV, Grimm NB, Hamilton SK, Johnson SL, McDowell WH, Meyer JL, Peterson B, Poole GC, Maurice Valett HM, Arango C, Beaulieu JJ, Burgin AJ, Crenshaw C, Helton AM, Johnson L, Merriam J, Niederlehner BR, O’Brien JM, Potter JD, Sheibley RW, Thomas SM, Wilson K (2010) Inter-regional comparison of land-use effects on stream metabolism. Freshw Biol 55:1874–1890
Bothwell ML (1985) Phosphorus limitation of lotic periphyton growth rates: an intersite comparison using continuous-flow troughs (Thompsen River system, British Columbia). Limnol Oceanogr 30:527–547
Bott TL (2006) Primary production and community respiration. In: Hauer RF, Lamberti GA (ed) Methods in stream ecology, 2nd edn. Elsevier, Oxford, p 855
Brix H, Schierup HH (2001) Limnologi, Analyseforeskrifter (in Danish). Afdeling for Botanisk Økologi, Aarhus University, Aarhus
Bunn SE, Davies PM, Mosisch TD (1999) Ecosystem measures of river health and their response to riparian and catchment degradation. Freshw Biol 41:333–345
Christensen JPA, Sand-Jensen K, Staehr PA (2013) Fluctuating water levels control water chemistry and metabolism of a charophyte dominated pond. Freshw Biol 58:1353–1365
Colmer T, Pedersen O (2007) Underwater photosynthesis and respiration in leaves of submerged wetland plants: gas films improve CO2 and O2 exchange. New Phytol 177:918–926
Edwards RW, Owens M (1962) The effects of plants on river conditions IV. The oxygen balance of a chalk stream. J Ecol 50:207–220
Ekstam U, Forshed N (2002) Svenska Alvarmarker—historie och ekologi (in Swedish). Naturvårdsverket Förlag, Stockholm
European Environment Agency (2005) Source apportionment of nitrogen and phosphorus input into the aquatic environment. EEA Rep 7:1–48
Fellows CS, Valett HM, Dahm CN (2001) Whole-stream metabolism in two montane streams: contribution of the hyporheic zone. Limnol Oceanogr 46:523–531
Fellows CS, Valett HM, Dahm CN, Mulholland PJ, Thomas SA (2006) Coupling nutrient uptake and energy flow in headwater streams. Ecosystems 9:788–804
Gibson CE (1978) Field and laboratory observations on the temporal and spatial variation of carbohydrate content in planktonic blue-green algae in Lough Neagh, Northern Ireland. J Ecol 66:77–115
Graeber D, Gelbrecht J, Pusch MT, Anlanger C, von Schiller D (2012) Agriculture has changed the amount and composition of dissolved organic matter in Central European headwater streams. Sci Total Environ 438:435–446
Hotchkiss ER, Hall RO (2014) High rates of daytime respiration in three streams: use of d18OO2 and O2 to model diel ecosystem metabolism. Limnol Oceanogr 59:798–810
Jähne B, Heinz G, Dietrich W (1987) Measurement of the diffusion coefficients of sparingly soluble gases in water. J Geophys Res 92:10767–10776
Kelly MG, Thyssen N, Moeslund B (1983) Light and the annual variation of oxygen- and carbon-based measurements of productivity in a macrophyte-dominated river. Limnol Oceanogr 28:503–515
Kjeldsen K, Iversen TM, Thorup J, Lund-Thomsen P (1996) Three-year study of benthic algal spring bloom development in a small Danish lowland stream. Hydrobiologia 335:183–192
Kristensen P, Hansen HO (1994) European rivers and lakes—assessment of their environmental state. European Environment Agency, Copenhagen
Leberfinger K, Herrmann J (2011) The importance of terrestrial resource subsidies for shredders in open-canopy streams revealed by stable isotope analysis. Freshw Biol 56:470–480
Lichtenthaler HK (1987) Chlorophylls and carotenoids: pigments of photosynthetic biomembranes. Method Enzymol 148:350–382
Maberly SC, Madsen TV (2002) Freshwater angiosperm carbon concentrating mechanisms. Funct Plant Biol 29:393–405
Markager S, Sand-Jensen K (1989) Patterns of night-time respiration in a dense phytoplankton community under a natural light regime. J Ecol 77:49–61
Marzolf ER, Mulholland PJ, Steinman AD (1994) Improvements to the diurnal upstream-downstream dissolved oxygen change technique for determining whole-stream metabolism in small streams. Can J Fish Aquat Sci 51:1591–1599
Marzolf ER, Mulholland PJ, Steinman AD (1998) Reply: improvements to the diurnal upstream-downstream dissolved oxygen change technique for determining whole-stream metabolism in small streams. Can J Fish Aquat Sci 55:1786–1787
Mulholland PJ, Fellows CS, Tank JL, Grimm NB, Webster JR, Hamilton SK et al (2001) Inter-biome comparison of factors controlling stream metabolism. Freshw Biol 46:1503–1517
Odum HT (1971) Fundamentals of ecology, 3rd edn. Saunders, Philadelphia
Pedersen O, Colmer TD, Sand-Jensen K (2013) Underwater photosynthesis of submerged plants—recent advances and methods. Front Plant Sci 4:1–19
Rasmussen JJ, Baattrup-Pedersen A, Riis T, Friberg N (2011) Stream ecosystem properties and processes along a temperature gradient. Aquat Ecol 45:231–242
Raymond PA, Zappa CJ, Butman D, Bott TL, Potter J, Mulholland P, Laursen AE, McDowell WH, Newbold D (2012) Scaling the gas transfer velocity and hydraulic geometry in streams and small rivers. Limnol Oceanogr Fluids Environ 2:41–53
Rebsdorf Aa (1972) The carbon dioxide system in freshwater: a set of tables for easy computation of total carbon dioxide and other components of the carbon dioxide system. Freshwater Biological Laboratory, University of Copenhagen, Hilleroed, p 66
Riis T, Dodds WD, Kristensen PB, Baisner AJ (2012) Nitrogen cycling and dynamics in a macrophyte-rich stream as determined by a 15 N–NH4+ release. Freshw Biol 57:1579–1591
Riis T, Dodds WD, Kristensen PB, Baisner AJ (2014) Corringendum: nitrogen cycling and dynamics in a macrophyte-rich stream as determined by a 15 N–NH4+ release. Freshw Biol 59:886–887
Roberts BJ, Mulholland PJ, Hill WR (2007) Multiple scales of temporal variability in ecosystem metabolism rates: results from 2 years of continuous monitoring in a forested headwater stream. Ecosystems 10:588–606
Sand-Jensen K (1997) Macrophytes as biological engineers in the ecology of Danish streams. In: Sand-Jensen K, Pedersen O (eds) Freshwater biology: priorities and development in Danish research. G.E.C. Gad Publishers, Copenhagen, pp 74–101
Sand-Jensen K, Staehr P (2012) CO2 dynamics along Danish lowland streams: water—air gradients, piston velocities and evasion rates. Biogeochem US 111:615–628
Sand-Jensen K, Møller J, Olsen BH (1988) Biomass regulation of microbenthic algae in Danish lowland streams. Oikos 53:332–340
Sand-Jensen K, Jeppesen E, Nielsen K, van der Bijl L, Hjermind L, Nielsen LW et al (1989) Growth of macrophytes and ecosystem consequences. Freshw Biol 22:15–32
Sand-Jensen K, Pedersen MF, Nielsen SL (1992) Photosynthetic use of inorganic carbon among primary and secondary water plants. Freshw Biol 9:1–11
Sand-Jensen K, Pedersen NL, Søndergaard M (2005) Bacterial metabolism in small temperate streams under contemporary and future climates. Freshw Biol 52:2340–2353
Sand-Jensen K, Baastrup-Spohr L, Winkel A, Møller CL, Borum J, Brodersen K et al (2010) Plant distribution and adaptation in a limestone quarry on Öland. Sven Bot Tidsskr 104:23–31
Simonsen JF (1974) Oxygen fluctuations in streams. Ph.D. thesis. Laboratoriet for Teknisk Hygiejne, Danmarks Tekniske Højskole (Technical University of Denmark), Copenhagen
Solomon CT, Bruesewitz DA, Richardson DC, Rose KC, Van de Bogert MC, Hanson PC et al (2013) Ecosystem respiration: drivers of daily variability and background respiration in lakes around the globe. Limnol Oceanogr 58:849–866
Ström L, Owen AG, Godbold DL, Jones DL (2005) Organic acid behaviour in a calcareous soil—implications for rhizosphere nutrient cycling. Soil Biol Biochem 37:2046–2054
Tobias CR, Böhlke JK, Harvey JW (2007) The oxygen-18 isotope approach for measuring aquatic metabolism in high-productivity waters. Limnol Oceanogr 52:1439–1453
Tyler G, Ström L (1995) Differing organic acid exudation pattern explaining calcifuge and acidofuge behaviour of plants. Ann Bot Lond 75:75–78
Uehlinger U, Naegeli M, Fisher SG (2002) A heterotrophic desert stream? The role of sediment stability. West N Am Nat 62:466–473
Von Schiller D, Marti E, Riera JL, Ribot M, Marks JC, Sabater F (2008) Influence of land use on stream ecosystem function in a Mediterranean catchment. Freshw Biol 53:2600–2612
Wanninkhof R (1992) Relationship between wind-speed and gas-exchange over the ocean. J Geophys Res 97:7373–7382
White KE (1978) Dilution methods. In: Herschy RW (ed) Hydrometry. Wiley, New York