Environmental Engineering Reference
In-Depth Information
Sui DZ, Maggio RC (1999) Integrating GIS with hydrological modeling: practices, problems, and
prospects. Comput Environ Urban Syst 23(1):33-51
Sun H, Benzie PW, Burns N, Hendry DC, Player MA, Watson J (1871) (2008) Underwater digital
holography for studies of marine plankton. Philos Transact A Math Phys Eng Sci
366:1789-1806
Sundell J, Huitu O, Henttonen H, Kaikusalo A, Korpim
anen H, Saurola P, Hanski I
(2004) Large-scale spatial dynamics of vole populations in Finnland revealed by the breeding
success of vole-eating avian predators. J Anim Ecol 73:167-178
Suzuki N, Murasawa K, Sakurai T, Nansai K, Matsuhashi K, Moriguchi Y, Tanabe K, Nakasugi O,
Morita M (2004) Geo-referenced multimedia environmental fate model (G-CIEMS): model
formulation and comparison to the generic model and monitoring approaches. Environ Sci
Technol 38(21):5682-5693
Svenning JC, Skov F (2004) Limited filling of the potential range in European tree species. Ecol
Lett 7:565-573
Tam J, Taylor MH, Blaskovic V, Espinoza P, Ball
´
n RM, D
´
az E, Wosnitza-Mendo C, Arguelles J,
Purca S, Ay
´
n P, Quipuzcoa L, Guti
´
rrez D, Goya E, Ochoa N, Wolff M (2008) Trophic
modeling of the Northern Humboldt Current Ecosystem, Part I: comparing trophic linkages
under La Ni˜a and El Ni˜o conditions. Progr Oceanogr 79:352-365
Tansley AB (1935) The use and abuse of vegetational terms and concepts. Ecology 16:284-307
Taylor KE (2001) Summarizing multiple aspects of model performance in a single diagram.
J Geophys Res 106:7183-7192
Taylor MH, Tam J, Blaskovic V, Espinoza P, Ball
´
n RM, Wosnitza-Mendo C, Arguelles J,
D´az E, Purca S, Ochoa N, Ay´n P, Goya E, Guti´rrez D, Quipuzcoa L, Wolff M (2008a)
Trophic modeling of the Northern Humboldt Current Ecosystem, Part II: elucidating
ecosystem dynamics from 1995 to 2004 with a focus on the impact of ENSO. Progr
Oceanogr 79:366-378
Taylor MH, Wolff M, Vadas F, Yamashiro C (2008b) Trophic and environmental drivers of the
Sechura Bay Ecosystem (Peru) over an ENSO cycle. Helgol Mar Res 62(1):15-32.
doi:
10.1007/s10152-007-0093-4
Teh SY, DeAngelis DL, LdSL S, Miralles-Wilhelm FR, Smith TJ, Koh HL (2008) A simulation
model for projecting changes in salinity concentrations and species dominance in the coastal
margin habitats of the Everglades. Ecol Modell 213:245-256
Thiery JM, D'Herbes JM, Valentin C (1995) A model simulating the genesis of banded vegetation
patterns in Niger. J Ecol 83:497-507
Thompson JN (1998) Rapid evolution as an ecological process. Trends Ecol Evol 13:329-332
Thuiller W (2004) Patterns and uncertainties of species' range shifts under climate change. Glob
Change Biol 10:2020-2027
Thuiller W, Albert C, Ara´ jo MB, Berry PM, Guisan A, Hickler T, Midgley GF, Paterson J, Schurr
FM, Sykes MT, Zimmermann NE (2008) Predicting global change impacts on plant species'
distributions: future challenges. Perspect Plant Ecol Evol Syst 9:137-152
Tingey DT (1989) Bioindicators in air pollution research - applications and constraints. In:
Biologic markers of air pollution stress and damage in forests, Committee on biological
markers of air pollution damage in trees. National Research Council, National Academy
Press, Washington DC
Todorovski L, Dzeroski S (2006) Integrating knowledge-driven and data-driven approaches to
modeling. Ecol Modell 194:3-13
Todorovski L, D
ˇ
eroski S, Kompare B (1998) Modelling and prediction of phytoplankton growth
with equation discovery. Ecol Modell 113:71-81
Toffoli T, Margolus N (1987) Cellular automata machines. MIT Press, Cambridge, MA
Travers M, Shin YJ, Jennings S, Cury P (2007) Towards end-to-end models for investigating the
effects of climate and fishing in marine ecosystems. Progr Oceanogr 75:751-770
Trexler JC, Loftus WF, Jordan F, Chick JH, Kandl KL, McElroy TC, Bass OL Jr (2002) Ecological
scale and its implications for freshwater fishes in the Florida Everglades. In: Porter JW, Porter
aki E, Pieti
€
€
