Changes

<p>Infiltration of stormwater into underlying soils is one the priority level 1. mechanisms to achieve MOECC Runoff Volume Control targets.   

<p>Infiltration of stormwater into underlying soils is one the priority level 1. mechanisms to achieve MOECC Runoff Volume Control targets.   

{{TextBox|1= Infiltration is promoted through a number of LID BMPs:

{{TextBox|1= Infiltration is promoted through a number of LID BMPs:

*[[Infiltration chambers and trenches]] (underground)

*[[Infiltration chambers]] (underground)

*[[Infiltration basins]] (surface)

*[[Infiltration trenches]] (underground)

*[[Dry ponds]] (surface)

*[[Bioretention cells]] (surface)

*[[Bioretention cells]] (surface)

*[[Bioswales]] (surface)

*[[Bioswales]] (surface)

<li>Where prohibitions and/or restrictions exist per approved Source Protection Plans (see MOECC guidance).  

<li>Where prohibitions and/or restrictions exist per approved Source Protection Plans (see MOECC guidance).  

</ol>

</ol>

<br><p>

<p>

Infiltration can still be optimized over 'tight' soils with infiltration rates ≤ 15 mm/hr:

Infiltration can still be optimized over 'tight' soils with infiltration rates ≤ 15 mm/hr:

<li>[[Bioretention:_Partial_infiltration|Partially infiltrating bioretention]]</li></p>

<p>Without infiltration, many LID design alternatives exist which can still capture and retain  stormwater:

<li>[[Bioretention:_Partial_infiltration|Partially infiltrating bioretention]]</li>

</ul>

Where infiltration is impossible, LID design alternatives exist which can still capture and retain  stormwater:

<ul>

<ul>

<li>[[Bioretention: Non-infiltrating | Bioretention planters]]</li>

<li>[[Bioretention: Non-infiltrating | Bioretention planters]]</li>