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- ...be directly toxic to plants. In some species the ions are absorbed by the plant and build up in the leaves causing them to die. ...cological effects. Indirect effects of plant cover reductions or shifts in plant communicates can also negatively impact wildlife habitat (Fay and Shi, 201264 KB (9,233 words) - 20:12, 11 March 2024
- ...ilter media layer, mulch and vegetation. Other design variations include [[Bioretention: Full infiltration|'''full infiltration''']] and [[Stormwater planters|'''n rect 1295 3183 1348 3254 [[Bioretention: Internal water storage|Internal Water Storage]]74 KB (9,862 words) - 15:09, 4 August 2023
- ...ably, Vancouver is near completion of an integrated storm water management plan, which will include recommendations for green infrastructure on public and ...osed by climate change and a plan to deal with those risks.” calls for a plan to deal with risks of climate change72 KB (10,396 words) - 14:04, 3 July 2019
- ...t support healthy vegetation. Whether it be the engineered filter media of bioretention cells, the growing media of green roofs or the topsoil of enhanced swales, |rowspan="10"|'''[[Bioretention]] / [[Bioswales]] / [[Dry swale]]'''71 KB (10,445 words) - 23:43, 16 January 2024
- ...ff reduction functions of simple grass channel and roadside ditch designs. Bioretention swales (i.e.bioswales, dry swales) incorporate filter media and possibly a ...avel wellhead protection areas (see local drinking water source protection plan).28 KB (3,979 words) - 18:49, 10 March 2023