01988namaa2200397uu 4500001001000000003000600010005001700016006001900033007001500052008004100067020001800108020001800126020001800144040001700162041000800179042000700187072001600194720002300210245003900233260002700272300002200299336002600321337002600347338003600373506005100409520081800460540006301278546001201341650002201353653002701375653001401402720002301416793001801439856011601457999001701573doab70747oapen20260305123945.0m     o  d        cr|mn|---annan210612s2016    xx |||||o     ||| 0|eng d  a9780415843324  a9780415843348  a9781315748771  aoapencoapen0 aeng  adc 7aJHB2bicssc1 aNeal, Zachary4edt00aHandbook of Applied System Science  bTaylor & Francisc2016  a1 online resource  atextbtxt2rdacontent  acomputerbc2rdamedia  aonline resourcebcr2rdacarrier0 aFree-to-readfUnrestricted online access2star  aFreshwater eutrophication is one of the major environmental challenges around the world. There is a range of known factors that are responsible, though the increased flux of nutrients from the sources to the water bodies is a key factor. The aim of this study is to operationalize "integrated valuation" as a way of bridging the gap between cost-effectiveness analysis and economic valuation of benefits in implementation of the Water Framework Directive. The authors begin with a definition of integrated valuation model of ecosystem services as a type of systems analysis, before they move on to describe their site of study and the boundaries of their model. Through applied demonstration, the authors evaluate whether the model meets criteria as an integrated valuation tool and discuss further applicability.  aAll rights reserveduhttp://oapen.org/content/about-rights  aEnglish 7aSociology2bicssc  aapplied system science  asociology1 aNeal, Zachary4oth0 aDOAB Library.40uhttps://directory.doabooks.org/handle/20.500.12854/7074770zFree-to-read: DOAB: description of the publication  c92670d92670