[Bajkiewicz-Grabowska E., 2008. Lake geoecosystem as an indicator of the rate of natural eutrophication of water reservoirs. Limnological Review 8(1–2): 9–12.]Search in Google Scholar
[Berger T., 2001. Agent-based spatial models applied to agriculture: a simulation tool for technology diffusion, resource use changes and policy analysis. Agricultural Economics 25(2–3): 245–260.10.1111/j.1574-0862.2001.tb00205.x]Search in Google Scholar
[Bremigan M.T., Soranno P.A., Gonzalez M.J., Bunnell D.B., Arend, K.K., Renwick, W.H., Stein, R.A., Vanni, M.J., 2008. Hydrogeomorphic features mediate the effects of land use/cover on reservoir productivity and food webs. Limnology and Oceanography 53(4): 1420–1433.10.4319/lo.2008.53.4.1420]Search in Google Scholar
[Brown D.G., 2006. Agent-Based Models. In: H. Geist (ed.), The Earths Changing Land: An Encyclopedia of Land-Use and Land-Cover Change. Greenwood Publishing Group, Westport: 7–13.]Search in Google Scholar
[Cheruvelil K.S., Soranno P.A., Bremigan M.T., Wagner T., Martin S.L., 2008. Grouping lakes for water quality assessment and monitoring: The roles of regionalization and spatial scale. Environmental Management 41(3): 425–440.10.1007/s00267-007-9045-718080795]Search in Google Scholar
[Conte R., Hegselmann R., Terna P., 1997. Simulating social phenomena Springer-Verlag, Berlin.10.1007/978-3-662-03366-1]Search in Google Scholar
[Couclelis H., 1987. Of mice and men: what rodent populations can teach us about complex spatial dynamics. Environment and Planning A 20: 99–109.10.1068/a200099]Search in Google Scholar
[Dzieszko P., 2014. Land-cover modelling using CORINE Land Cover data and multi-layer perceptron. Quaestiones Geographicae 33(1): 5–22.10.2478/quageo-2014-0004]Search in Google Scholar
[Dzieszko P., Bartkowiak K., Giełda-Pinas K., 2013. Agenci w modelowaniu agentowym (ABM). Roczniki Geomatyki 4(61): 17–23.]Search in Google Scholar
[Eastman J.R., 2012. Idrisi Selva Manual. Clark University, Worcester, pp. 324.]Search in Google Scholar
[EEA [European Environment Agency], 2006. CORINE Land Cover. http://www.eea.europa.eu/; accessed 12 December 2014.]Search in Google Scholar
[Epstein J.M., 2008. Why Model? Journal of Artificial Societies and Social Simulation Vol. 11, No. 4: 12.]Search in Google Scholar
[Epstein J.M., Axtell, R., 1996. Growing artificial societies: Social science from the ground up. Brookings Institution Press, Washington DC.10.7551/mitpress/3374.001.0001]Search in Google Scholar
[Ferench B., Dawidek J., 2010. Spatial variation of basin supply as a factor of water quality in a shallow, flow-through lake. Limnological Review 10(3–4): 127–132.10.2478/v10194-011-0014-4]Search in Google Scholar
[Foley J.A., DeFries R., Anser G.P., Barford C., Bonann G., Carpenter S.R., Chapin F.S., Coe M.T., Daily G.C., Gibbs H.K. 2005. Global consequences of land use. Science 309(5734): 570–574.10.1126/science.111177216040698]Search in Google Scholar
[Giełda-Pinas K. 2012. Waloryzacja przyrodnicza krajobrazu Pojezierza Gnieźnieńskiego. Problemy Ekologii Krajobrazu 33: 77–85.]Search in Google Scholar
[Giełda-Pinas K., 2015. Symulacje zmian pokrycia terenu i użytkowania ziemi z wykorzystaniem modelowania agentowego. Roczniki Geomatyki XIII 1(61): 7–19.]Search in Google Scholar
[Giełda-Pinas K., Ligmann-Zielińska A., Zwolinski Z., 2015 (in press). Spatio-temporal changes of land use and land cover simulated by agent-based modelling, Gniezno Lakeland District, Poland. Limnological Rewiev 15.10.2478/limre-2015-0011]Search in Google Scholar
[Goodchild M.F., 2005. GIS, Spatial Analysis, and Modelling Overview. In: D.J. Maguire, M. Batty, M.F. Goodchild (eds), GIS, Spatial Analysis and Modeling. ESRI Press, Redlands: 1–18.]Search in Google Scholar
[GUS [Główny Urząd Statystyczny], 2015. Bank Danych Lokalnych. Online: http://stat.gov.pl/bdl/app/strona.html?p_name=indeks; accessed 15 May 2015.]Search in Google Scholar
[Hillbricht-Ilkowska A., 2005. Ochrona jezior i krajobrazu pojeziernego – problemy, procesy, perspektywy, Funkcje regionalne i problemy badawcze krajobrazu pojeziernego. Kosmos – Problemy Nauk Biologicznych 54(2–3): 285–302.]Search in Google Scholar
[IMGW [Instytut Meteorologii i Gospodarki Wodnej], 2007. Mapa Podziału Hydrograficznego Polski, 1:50 000. Zakład Hydrografii i Morfologii Koryt Rzecznych, Instytut Meteorologii i Gospodarki Wodnej, Ministerstwo Środowiska, Narodowy Fundusz Ochrony Środowiska i Gospodarki Wodnej, Warszawa.]Search in Google Scholar
[Itami R.M., 1994. Simulating spatial dynamics: cellular automata theory. Landscape and Urban Planning 30: 27–47.10.1016/0169-2046(94)90065-5]Search in Google Scholar
[Janssen M.A., Jager W., 2000. The human actor in ecological economic models. Ecological Economics 35(30): 307–310.10.1016/S0921-8009(00)00215-9]Search in Google Scholar
[Johnson L.B., Richards C., Host G.E., Arthur J.W., 1997. Landscape influences on water chemistry in Midwestern stream ecosystems. Freshwater Biology 37: 193–208.10.1046/j.1365-2427.1997.d01-539.x]Search in Google Scholar
[Jones J.R., Knowlton M.F., Obrecht D.V, Cook E.A., 2004. Importance of landscape variables and morphology on nutrients in Missouri reservoirs. Canadian Journal of Fisheries and Aquatic Sciences 61: 1503–1512.10.1139/f04-088]Search in Google Scholar
[Keitt T.H., Urban D.L., Milne B.T., 1997. Detecting critical scales in fragmented landscapes. Conservation Ecology 1(1): 4.10.5751/ES-00015-010104]Search in Google Scholar
[Kostrzewski A., 2008. Present state and functioning of lake geoecosystems – methodological and methodical assumptions. Limnological Review 8(1–2): 5–8.]Search in Google Scholar
[Langran G., 1992. Time in Geographic Information Systems. Taylor and Francis, London.10.1080/10106049209354371]Search in Google Scholar
[Ligmann-Zielinska A., 2009. The impact of risk-taking attitudes on a land use pattern: an agent-based model of residential development. Journal of Land Use Science 4(4): 215–232.10.1080/17474230903220386]Search in Google Scholar
[Ligtenberg A., Wachowicz M., Bregt A.K., Beulens A., Kettenis D.L., 2004. A design and application of a multi-agent system for simulation of multi-actor spatial planning. Journal of Environmental Management 72(1): 43–55.10.1016/j.jenvman.2004.02.00715246573]Search in Google Scholar
[Matthews R. B., Gilbert N.G., Roach A., Polhill J.G., Gotts N.M., 2007. Agent-based land-use models: a review of applications. Landscape Ecology 22(10): 1447–1459.10.1007/s10980-007-9135-1]Search in Google Scholar
[Monticino M., Acevedo M., Callicott B., Cogdill T., Lindquist C. 2007. Coupled human and natural systems: A multi-agent-based approach. Environmental Modelling & Software 22(5), 656–663.]Search in Google Scholar
[Myers D., 2001. Introduction to the Symposium: Putting the Future in Planning. Journal of the American Planning Association 67: 365–367.10.1080/01944360108976244]Search in Google Scholar
[Parker D.C., Manson S.M., Janssen M.A., Hoffman M.J., Deadman P., 2003. Multi-Agent Systems for the Simulation of Land-Cover Change: A Review. Annals of the Association of American Geographers 93(2): 314–337.10.1111/1467-8306.9302004]Search in Google Scholar
[Peuquet D.J., 2005. Time in GIS and Geographical Databases. In: P.A. Longley, M.F. Goodchild, D.J.Maguire, D.W. Rhind (eds), Geographical Information Systems: Principles, Techniques, Management and Applications. Wiley, Hoboken, 91–103.]Search in Google Scholar
[Ptak M., Ławniczak A.E., 2011. Changes in land use in the buffer zone of lake of the Mała Wełna catchment. Limnological Review 12(1): 35–44.10.2478/v10194-011-0043-z]Search in Google Scholar
[Slager K., Ligtenberg A., de Vries B., de Waard R., 2007. Simlandscape: serious gaming in participatory spatial planning. 10th AGILE International Conference on Geographic Information Science, Aalborg University, Denmark.]Search in Google Scholar
[Soranno P.A., Cheruvelil K.S., Webster K.E., Bremigan M.T., Wagner T., Stow C., 2010. Using landscape limnology to classify freshwater ecosystems for multi-ecosystem management and conservation. BioScience 60(6): 440–454.10.1525/bio.2010.60.6.8]Search in Google Scholar
[Soranno P.A., Hubler S.L., Carpenter S.R., Lathrop R.C., 1996. Phosphorus loads to surface waters: a simple model to account for spatial pattern of land use. Ecological Applications 6(3): 865–878.10.2307/2269490]Search in Google Scholar
[Soranno, P.A., Webster K.E., Cheruvelil K.S., Bremigan M.T, 2009. The lake landscape-context framework: linking aquatic connections, terrestrial features and human effects at multiple spatial scales. Verhandlungen des Internationalen Verein Limnologie 30(5): 695–700.10.1080/03680770.2009.11902218]Search in Google Scholar
[Strayer D.L., Beighley R.E., Thompson L.C., Brooks S., Nilsson C., Pinay G., Naiman R.J., 2003. Effects of land cover on stream ecosystems: Roles of empirical models and scaling issues. Ecosystems 6: 407–423.10.1007/PL00021506]Search in Google Scholar
[Szpikowski J., 2003. The mechanism of overland flow and wash on slopes in agricultural use on the upper Parsęta catchment. In: A. Kostrzewski, J. Szpikowski (eds) Funkcjonowanie geoekosystemów zlewni rzecznych 3. Obieg wody, uwarunkowania i skutki w środowisku przyrodniczym. Bogucki Wyd. Nauk., Poznań: 261–277.]Search in Google Scholar
[Valbuena D., Verburg P.H., Bregt A.K., Ligtenberg A. 2010. An agent-based approach to model land-use change at a regional scale. Landscape Ecology 25(2): 185–199.10.1007/s10980-009-9380-6]Search in Google Scholar
[Waard R.S., 2005. Simlandscape: een ontwerp en onderzoek ondersteunend systeem voor planning, gebaseerd op de scenariomethode en kadastraal GIS. PhD-thesis, Technical University Eindhoven.]Search in Google Scholar
[Walsh S.E., Soranno, P.A., Rutledge, D.T., 2003. Lakes, Wetlands, and Streams as Predictors of Land Use/Cover Distribution. Environmental Management 31(2): 198–214.10.1007/s00267-002-2833-112520376]Search in Google Scholar
[Weiss G., 1999. Multi-agent systems: A modern approach to distributed artificial intelligenc. MA: MIT Press, Cambridge.]Search in Google Scholar
[Zwoliński Zb., 1998. Geoindykatory w badaniach współczesnej dynamiki geosystemów. In: K. Pękala (ed.), Główne kierunki badań geomorfologicznych w Polsce. Stan aktualny i perspektyw. Lublin: 223–227.]Search in Google Scholar