We’re committed to improving our ecosystems, quality of life, and communities for the better.
Our passion and commitment to the integration of innovative science and engineering drive us to exceed on behalf of every client.
WP_Query Object ( [query] => Array ( [tag] => rain-garden ) [query_vars] => Array ( [tag] => rain-garden [error] => [m] => [p] => 0 [post_parent] => [subpost] => [subpost_id] => [attachment] => [attachment_id] => 0 [name] => [pagename] => [page_id] => 0 [second] => [minute] => [hour] => [day] => 0 [monthnum] => 0 [year] => 0 [w] => 0 [category_name] => natural-resource-management [cat] => 10 [tag_id] => 907 [author] => [author_name] => [feed] => [tb] => [paged] => 1 [meta_key] => [meta_value] => [preview] => [s] => [sentence] => [title] => [fields] => all [menu_order] => [embed] => [category__in] => Array ( [0] => 10 ) [category__not_in] => Array ( ) [category__and] => Array ( ) [post__in] => Array ( ) [post__not_in] => Array ( ) [post_name__in] => Array ( ) [tag__in] => Array ( ) [tag__not_in] => Array ( ) [tag__and] => Array ( ) [tag_slug__in] => Array ( [0] => rain-garden ) [tag_slug__and] => Array ( ) [post_parent__in] => Array ( ) [post_parent__not_in] => Array ( ) [author__in] => Array ( ) [author__not_in] => Array ( ) [search_columns] => Array ( ) [ignore_sticky_posts] => [suppress_filters] => [cache_results] => 1 [update_post_term_cache] => 1 [update_menu_item_cache] => [lazy_load_term_meta] => 1 [update_post_meta_cache] => 1 [post_type] => [posts_per_page] => 10 [nopaging] => [comments_per_page] => 5 [no_found_rows] => [order] => DESC ) [tax_query] => WP_Tax_Query Object ( [queries] => Array ( [0] => Array ( [taxonomy] => category [terms] => Array ( [0] => 10 ) [field] => term_id [operator] => IN [include_children] => ) [1] => Array ( [taxonomy] => post_tag [terms] => Array ( [0] => rain-garden ) [field] => slug [operator] => IN [include_children] => 1 ) ) [relation] => AND [table_aliases:protected] => Array ( [0] => ph_term_relationships [1] => tt1 ) [queried_terms] => Array ( [category] => Array ( [terms] => Array ( [0] => 10 ) [field] => term_id ) [post_tag] => Array ( [terms] => Array ( [0] => rain-garden ) [field] => slug ) ) [primary_table] => ph_posts [primary_id_column] => ID ) [meta_query] => WP_Meta_Query Object ( [queries] => Array ( ) [relation] => [meta_table] => [meta_id_column] => [primary_table] => [primary_id_column] => [table_aliases:protected] => Array ( ) [clauses:protected] => Array ( ) [has_or_relation:protected] => ) [date_query] => [queried_object] => WP_Term Object ( [term_id] => 907 [name] => rain garden [slug] => rain-garden [term_group] => 0 [term_taxonomy_id] => 907 [taxonomy] => post_tag [description] => [parent] => 0 [count] => 13 [filter] => raw [term_order] => 0 ) [queried_object_id] => 907 [request] => SELECT SQL_CALC_FOUND_ROWS ph_posts.ID FROM ph_posts LEFT JOIN ph_term_relationships ON (ph_posts.ID = ph_term_relationships.object_id) LEFT JOIN ph_term_relationships AS tt1 ON (ph_posts.ID = tt1.object_id) WHERE 1=1 AND ( ph_term_relationships.term_taxonomy_id IN (10) AND tt1.term_taxonomy_id IN (907) ) AND ((ph_posts.post_type = 'post' AND (ph_posts.post_status = 'publish' OR ph_posts.post_status = 'acf-disabled'))) GROUP BY ph_posts.ID ORDER BY ph_posts.menu_order, ph_posts.post_date DESC LIMIT 0, 10 [posts] => Array ( [0] => WP_Post Object ( [ID] => 9646 [post_author] => 1 [post_date] => 2021-09-28 00:55:54 [post_date_gmt] => 2021-09-28 00:55:54 [post_content] => If you’re looking for a way to solve drainage issues in your yard and put rainwater to good use, look no further than a rain garden. Rain gardens are a cost effective, attractive, and sustainable way to minimize stormwater runoff and filter out pollutants. This aesthetic, low-maintenance addition to any outdoor landscape creates a functioning habitat that attracts pollinators, beneficial insects, and birds. And, in a small way, it helps reduce erosion, promote groundwater recharge, and minimize flooding. WHAT IS A RAIN GARDEN? A rain garden is an excavated depression in the landscape that is planted with wetland or wet-tolerant plants. It captures a portion of stormwater runoff from a targeted area (i.e., rooftop, walkway, or driveway). Even if it intercepts the first one inch of rain and the rest overflows, it will still capture about 90% of the total annual rainfall. The concept of rain gardens are becoming mainstream and there are many, many online resources to obtain design guidelines. In fact, even “This Old House”, a PBS stalwart, has an instructional page to help guide the design process! "After repeated stormwater drainage issues near my home’s foundation due to flat topography, I opted to go the environmentally-friendly route of installing a rain garden in my front yard." Princeton Hydro President Geoff Goll, P.E. recently installed a rain garden at his home and documented the process and put together step-by-step instructions on how to build your own: STEP 1: CHOOSE THE BEST LOCATION Where does your stormwater flow? A rain garden is designed to infiltrate water, so it is best to build your rain garden in an area where rainwater will feed into it from downspouts, driveways or low points in your yard.
If you’re looking for a way to solve drainage issues in your yard and put rainwater to good use, look no further than a rain garden. Rain gardens are a cost effective, attractive, and sustainable way to minimize stormwater runoff and filter out pollutants. This aesthetic, low-maintenance addition to any outdoor landscape creates a functioning habitat that attracts pollinators, beneficial insects, and birds. And, in a small way, it helps reduce erosion, promote groundwater recharge, and minimize flooding.
A rain garden is an excavated depression in the landscape that is planted with wetland or wet-tolerant plants. It captures a portion of stormwater runoff from a targeted area (i.e., rooftop, walkway, or driveway). Even if it intercepts the first one inch of rain and the rest overflows, it will still capture about 90% of the total annual rainfall.
The concept of rain gardens are becoming mainstream and there are many, many online resources to obtain design guidelines. In fact, even “This Old House”, a PBS stalwart, has an instructional page to help guide the design process!
"After repeated stormwater drainage issues near my home’s foundation due to flat topography, I opted to go the environmentally-friendly route of installing a rain garden in my front yard."
Princeton Hydro President Geoff Goll, P.E. recently installed a rain garden at his home and documented the process and put together step-by-step instructions on how to build your own:
Where does your stormwater flow? A rain garden is designed to infiltrate water, so it is best to build your rain garden in an area where rainwater will feed into it from downspouts, driveways or low points in your yard.
In order to determine if the soil at your selected location will readily infiltrate runoff, dig a few test holes. An optimal location will achieve one inch per hour of infiltration (i.e. the hole empties in 8 hours) and a good location will achieve one-half inch per hour (empties in 16 hours). If it is slower than 24 hours, you should consider a new location.
Determine the size and shape of your garden. Geoff chose a circular shape for his garden.
IMPORTANT! Before you dig, you MUST call your state’s dig-safe number (811) at least 72 hours before putting a shovel in the ground. It’s the law! They will mark-out your property for free so that you don’t unintentionally dig into any underground utility lines.
Depending on whether you will hand-dig your rain garden (as Geoff did) or rent a small excavator (you can rent one from Home Depot or local equipment rental centers), will dictate how much time the effort will take. Prepare your garden by removing all of the grass. If you can, separate the topsoil for later use or for other areas of your property.
Start digging out the area until you reach the proposed bottom depth. In some cases, you may have to dig a little further down to reach more adequate soils for infiltration. The sides of the hole should form a gentle slope toward the middle and create a berm around the perimeter that ensures the garden will hold water in when it rains.
Tip: For excavated soil that’s not reused in your rain garden, find it a home by filling in low areas in your lawn or stockpile it for later use.
Carve out a spillway by creating a small indentation in the berm of the rain garden, lining it with permeable weed control fabric, and filling it with decorative stone.The spillway will allow excess rain water to overtop and flow out of the garden should it overfill during a storm event.
Use some of the excavated soil to create a berm around the rain garden. Once depth for adequate infiltration is reached, begin filling the hole with sand, and continue to backfill it to the proposed final grade, making sure the bottom of the rain garden is 6 to 8 inches below the surrounding lawn. (Note: Geoff ordered 3 tons of sand for his project, however, this quantity will be custom to your site, so use your best judgement to determine how much you’ll need). Add leaf compost (about 4 lbs per square foot) to the top of the sand and hand-till the compost with a shovel to a depth of 12 inches.
Having native wetland or wet tolerant plants that can withstand periods of drought is the key to success. Use hardy perennial species with well-established root systems. For guidance, look to your local garden center and a niche plant nursery. Make the plant palette your own. (Note: Be on the lookout for deer resistant plantings if this is an issue in your area).
When it’s time for planting, place each plant 12 inches apart and dig each hole twice as wide as the plant plug. The crown of the plant should be level with the ground. Apply wood mulch over the bed. Water frequently until the plants are established. Later on, no watering will be necessary. The vegetation will fill in nicely over the next few seasons.
If you’re planning to connect your gutter to the rain garden, it’s a good idea to install the drainage pipe last so the project is not inundated with water after a rainstorm while it is still under construction.
It is very important to keep an eye on your rain garden, especially after rain, to ensure that it is emptying in a timely manner. The last thing you want is to have the neighbors complaining about the “mosquito pond” next door. Generally, all the water should be infiltrated into the soil within 24 hours.
“A week after I completed the installation of the rain garden, we received over 4 inches of rain within a 5 day period, and then, we were hit with Tropical Storm Ida with 4.29 inches of rain (from my home rain gage) in a period of less than 24 hours. The rain garden worked very well, and even after Ida, the rain garden infiltrated all the water retained in the bottom within an 8 hour period (about an inch per hour).”
Each season, pull weeds, remove debris, and replenish the mulch as needed in order to help retain moisture and block weeds.
[embed]https://youtube.com/shorts/7EJymwQYjy8?feature=share[/embed]
“During the construction, I’m sure my neighbors were judging the ugly hole in my front lawn. And, my wife even marked herself as “Safe from the Hole” on Facebook! However, when it was finished, she was pleasantly surprised at how pretty the rain garden looked and amazed at how it managed stormwater,” said Geoff. “If everyone in my neighborhood installed a rain garden, imagine the positive reduction in stormwater and flooding that would occur downstream. Plus, we’d have some pretty awesome looking native flowers and grasses around for the pollinators and wildlife.”
Volunteers recently gathered together at Clawson Park in Ringoes, NJ to install native plants in the park’s large stormwater basin and overhaul two of the park’s rain gardens, removing invasive weeds and planting beneficial native species.
By definition, a rain garden is a shallow depression that is planted with deep-rooted native plants and grasses and positioned near a runoff source to capture rainwater. Rain gardens temporarily store rainwater and runoff, and filter the water of hydrocarbons, oil, heavy metals, phosphorous, fertilizers and other pollutants that would normally find their way to the sewer and even our rivers and waterways. They are a cost effective, attractive, and sustainable way to minimize stormwater runoff. They also help to reduce erosion, promote groundwater recharge, and minimize flooding. Planting native plants helps to attract pollinators and birds and naturally reduces mosquitoes by removing standing water thus reducing mosquito breeding areas.
Once a rain garden has been established, it is low maintenance and typically only requires occasional weeding to remove any invasive species that may have cropped up. The recent volunteer effort, lead by Jack Szczepanski, PhD, Senior Aquatics Scientist, was an important step in maintaining the health and native diversity of Clawson Park’s rain gardens.
The park’s rain gardens and stormwater basins were originally designed and implemented by Princeton Hydro. Back in 2016, Eagle Scout Brandon Diacont had an idea to beautify Clawson Park and improve the park’s stormwater drainage issues. Princeton Hydro supported his vision by developing, permitting, and implementing a stormwater management project plan, which included the installation of multiple rain gardens throughout the park. In October of 2016, under the guidance of Princeton Hydro’s Landscape Designer Cory Speroff, MLA, ASLA, CBLP, a great group of volunteers gathered together and got to work bringing the project plan to life!
The Princeton Hydro team has designed and constructed countless stormwater management systems, including rain gardens in locations throughout the Eastern U.S. Click here for more information about our stormwater management services.
…
Your Full Name * Phone Number * Your Email * Organization Address Message *
By EmailBy Phone
Submit
Δ
Couldn’t find a match? Check back often as we post new positions throughout the year.
PRINCETON HYDRO
PRINCETON HYDRO