Point Environmental

Point Environmental

  • Fish Salvage Video

    Are you curious what a fish salvage looks like?

    Our very own Environmental Site Inspector created this video of the fish salvage Point Environmental completed on the Marys River.  For more information on details of this project, or other projects, see our Past Projects Page.

  • Welcome New Staff

    We are happy to welcome a new member to our team:

    Robin Crossley, Environmental Site Inspector with environmental education and experience.

    To reach Robin, please refer to the contact page.


  • New Office Space

    Point Environmental has a new office space.

    We can be found at:

    914 Mollala Avenue, Suite 102

    Oregon City, OR 97045

  • Starting Small: How splash erosion starts a process that can cause a mudslide

    Erosion on construction sites generally starts with rainfall. The extraordinary amount of bare soil created by construction activity renders the ground vulnerable to washing away, and even though we’ve all seen a big mudflow, such catastrophic events start on a nearly microscopic level. Raindrops can plummet to the earth at up to 20 mph, and when they hit the ground, they disrupt the soil aggregate, sending particles up to nearly 5 feet away from where they were disturbed.

    This impact and rearrangement of the displaced particles breaks up the crust and creates a surface over which water begins running faster; this increased velocity increases the erosive potential of the runoff and causes the flow to pick up more material. From this tiny point, flows may gather together, forming the more familiar sheeting, rills, and gullies that can cause even more trouble.

  • Know Your Roll: How to choose between compost socks and straw wattles

    Of the seeming thousands of options for erosion and sediment control on construction sites, a few methods jump to the forefront as consistent, tried-and-true ways that can be used in a wide variety of projects: silt fences, check dams, rock roads, temporary grass (of course), compost socks, straw wattles… but wait for a second, those last two are basically the same thing, right? No indeed. Both are effective Best Management Practices (BMPs) for slowing water and causing sediment to settle out, but the situations in which they should be used can be very different.

    Straw wattles protecting a sidewalk

    Straw wattles are versatile, relatively inexpensive, and easily replaced or disposed of. They provide filtration, help establish vegetation, reduce water velocity, and some are biodegradable or photodegradable. They’re good for slowing flows on slopes, for curbside applications to keep sediment from going to paved roads (see picture above), to prevent sheet and rill flow on broad strips of land, and many other uses. Because of their lightweight, straw wattles need to be placed in a small trench dug beforehand, and then secured with stakes.

    Compost socks on a paved surface.

    Compost socks are an excellent option for flat surfaces, especially perimeters. Due to their weight, they do not need to be keyed into a trench-like straw wattle, nor do they always need to be staked (unless they are indeed installed on a slope). They form a nice barrier to settle out water, contouring themselves to the surface on which they are placed. Installation can be done with a blower, or the socks can be purchased in premeasured lengths. As a slightly heavier-duty option, compost socks can handle larger volumes of water and are a better option as a barrier on the perimeter, while a series of straw wattles used more toward the center of a site is generally sufficient—of course, all projects are different, so this is by no means a broad and unbreakable rule.

    Both compost socks and straw wattles are delicate, and cannot stand up to vehicles driving over them. Once they fill with sediment, they need to be dug out and replaced, so on sites where erosion control is lacking and sediment-laden water consistently runs against these BMPs, they will need to be replaced regularly.