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作者

来源

LANDSCAPE AND URBAN PLANNING,Vol.170,P.138-149

语言

英文

关键字

Stream vulnerability; Watershed urbanization; Resilience; Bayesian networks; Spatial models; Sustainable stream protection; MULTIPLE SPATIAL SCALES; SUSTAINABILITY SCIENCE; BELIEF NETWORKS; BIOLOGICAL CONDITION; INSECT COMMUNITIES; EXPERT KNOWLEDGE; LAND-

作者单位

[Weil, Kristen K.; Cronan, Christopher S.] Univ Maine, Sch Biol & Ecol, Deering Hall, Orono, ME 04469 USA. [Meyer, Spencer R.] Highstead Fdn, POB 1097, Redding, CT 06875 USA. [Lilieholm, Robert J.] Univ Maine, Sch Forest Resources, Orono, ME 04469 USA. [Danielson, Thomas J.; Tsomides, Leonidas] Maine Dept Environm Protect, 17 State House Stn, Augusta, ME 04333 USA. [Owen, Dave] Univ Calif San Francisco, Hastings Coll Law, San Francisco, CA 94706 USA. [Weil, Kristen K.] Trust Publ Land, 607 Cerillos Rd, Santa Fe, NM 87505 USA. Cronan, CS (reprint author), Univ Maine, Sch Biol & Ecol, Deering Hall, Orono, ME 04469 USA. E-Mail: cronan@maine.edu

摘要

As human development and urbanization expand across the landscape, increasing numbers of streams are threatened with impairment from disturbance and stresses associated with land use changes. In this investigation, a Bayesian Network (BN) with an expert-informed model structure was developed to predict stream vulnerability to urbanization across a range of biophysical conditions. Primary factors affecting vulnerability were stream buffers, colonization connectivity, agriculture, watershed area, and sand/gravel aquifers. On a scale from 0 to 100 (lowest to highest probability), BN model vulnerability scores ranged from a minimum of 20 to a maximum of 87.5 across the 23,554 stream catchments in our statewide study area. Catchment vulnerability scores were linked with predictions of land development suitability from a second BN model in order to map the locations of streams at risk of impairment from projected future urbanization in two large watersheds in Maine, USA. Our BN synthesis identified 5% of the streams that are at risk based on two assessment criteria: (1) their catchments have projected future impervious cover (IC) levels greater than 6% and (2) the stream catchments have predicted vulnerability scores in the highest quartile of the BN model probability distribution. These at-risk streams represent priority targets for proactive monitoring, management, and conservation efforts to avoid future degradation and expensive restoration costs. This study laid the conceptual groundwork for using BN spatial models to identify streams that are not only vulnerable to urbanization, but are also located in catchments classified with a high probability of development suitability and future urbanization.