Month: February 2018

Draining Seattle Small Lakes

Jason Kingcity, creeks, history, infrastructure, lakes, maps, parks, seattle, streams, watersheds13 Comments on Draining Seattle Small Lakes

An email from a reader of the site posed a few interesting questions about the two small lakes in the northern sections of Seattle, specifically discussing the current and historical outflows of these lakes.  I’ve discussed the small lakes in brief here, related maps of their bathymetry and tangentially in the context of Licton Springs. However, this was a good instigation to to focus on some more specifics of these urban water bodies.  I will refrain from my tendency to write another way-too-long post (of which this will inevitably turn into) and parcel this out in a few shorter ones, the first focusing on drainage questions (of which these are all connected) and then individual posts on Haller Lake, Bitter Lake, and Green Lake, as they are important parts of the hydrological history of Seattle.

To understand the overall configuration of water in Seattle, I did find this document by Seattle Public Utilities (SPU) titled ‘City of Seattle State of the Waters 2007‘. The first volume covers Seattle Watercourses, (which we will probably return to in the future), and in particular for our purposes here we look to Volume II: Seattle Small Lakes’  (both links above go to the PDFs – as I couldn’t find a page with a direct link) and it sounds like a great resource in need of an update.

For some general contents, a bit on lakes in general and their outfalls, from Vol. II, p.3:  “Lakes receive inflow from their surrounding watersheds through rivers, watercourses, overland and subsurface flow, and — in developed areas — from drainage pipes. Water typically exists a lake through a watercourse or river, although the outflows of most lakes in Seattle have been channeled into constructed drainage systems.”

HISTORIC DRAINAGE

In general, all three lakes are formed from Vashon glaciation, and as I mentioned previously, per geologist Stan Chernicoff, both Bitter and Haller lakes would be considered true kettle lakes, and Green Lake a hybrid, although still formed by glaciation.  The 1850s map locates the three Lakes, all of which are in the north portion of Seattle, but doesn’t offer too much in terms of drainage direction, aside from implying proximity between Thornton Creek drainage for Haller Lake, and Bitter Lake likely draining west due to proximity, neither show a visible outfall creek.

Green Lake it’s more obvious, with multiple inflows, including Licton Springs Creek, and the very distinct outflow that drains through Ravenna Creek southeast into Union Bay.

The 1894 USGS map offers us the aid of topography, along with a bit more more comprehensive creek coverage. Bitter Lake hints at the possibility of outfalls either direction, heading to the northwest down to ravines that skirt The Highlands and the Seattle Golf Club and outlet near Spring Beach, and also draining southeast towards a seasonal drainage. Haller Lake (titled Welsh Lake on the map) also has no visible outfall as well, but adjacent creeks that are part of Thornton Creek drainage nearby, and a wetland area to the south make me infer that these  would be like to be the natural drainage course of the lake.

Green Lake’s hydrology is a lot simpler to discern, with the similar inputs and outputs via the Ravenna outlet to the wetland zones near University Village and outlets into Union Bay.

TWO ALTERNATIVE THEORIES ON HISTORICAL DRAINAGE

One part I’ve always been a bit skeptical about in the USGS map is the location and extent of the drainage from Thornton Creek that looks to curve way west and intercept any south flow from the Bitter and Haller Lakes and direct it to the east to the larger Thornton Creek Basin.  Licton Springs Creek also flows south, and is in reality much further north than shown on maps, and the interface between the two basins if filled with springs and wetlands, so it’s likely there could have been some disconnect between what was there flowing south, and what was mapped flowing east.  However,  Alternative 1 uses the basis of the map as the correct flowline, so shows both Bitter Lake and Haller Lake draining towards a seasonal creek and wetland that exists in the South Branch of Thornton Creek, and a smaller drainage picking up Licton Springs Creek draining into Green Lake.  This mapped, overlaid on the 1894 map, shows an option for the lakes draining east, into Lake Washington. Dashed lines, for reference, are really basic watershed delineations, and the arrows show flow from lakes.

My gut is that both lakes flowed into Green Lake, via Licton Springs Creek, and then continued out to Ravenna.  Alternative 2 looks at a version of this where there is more of a distinct ridgeline separation between the Thornton Creek Basin and the drainage that flows north south, and that the survey misinterpreted the flowline that heads towards the east due to the aforementioned springs and wetlands.  The fact that the Licton Springs Creek is much further north than mapped, makes me posit that the upper lakes drained to this transfer point, and that instead of falling east, the flows kept going south into Green Lake, via the Licton Springs. Overlaid on the modern topography gives a bit of context to this configuration.

Both of these options are plausible, and the current outflows of the lakes (seen below) support this, with Bitter Lake draining to the Southeast and Haller Lake draining West.  This at least gives us the indication that these both flowed to the low north/south valley (where current Highway 99/Aurora Avenue runs), however, where they go after is still a bit of a mystery. My follow-up plan is to look at some Lidar or a DEM to provide a much clearer picture of the flowlines and ridgelines, which we can assume, much like the current topo, is mostly similar to its predevelopment configurations (i.e. places in Seattle where we didn’t move hills).  This will go beyond this back of the napkin approach above and see if that higher degree of detail unlocks any new info.

CURRENT DRAINAGE
While it’s hard to determine the exact nature of pre-development drainage on these lakes, we can infer much from these historic documents and topography.  The current system is more clear, although not visibly inherent due to the modernization and piping of drainage through large intercepter sewers – in this case the Densmore Avenue Drainage System, which runs north/south around the low flowline at Aurora Avenue (Highway 99).

The first hint of the split of drainage is in the State of the Waters, where both Bitter Lake and Haller Lake fall outside of their adjacent drainages going west to Piper’s Creek and east to Thornton Creek.  Figure 1 from the report shows a narrow band that is bisected by this linear north south zone, with both creeks located inside the boundary.

A search for the nature of this basin configuration is somewhat frustrating, mostly as it seems to be specifically not related to a creek so isn’t referenced as a watershed in the same way.  The SPU site on Urban Watersheds breaks down the city into four distinct areas of drainage, including the Puget Sound, Lake Washington, and the Duwamish River, as well as this uniquely land-locked zone we’re focused on, known as the Ship Canal/Lake Union basin

This is subdivided into some smaller sub-basins,including the Ship Canal Basin, the South Lake Union, and our zone, the North Lake Union Basin, which stretches up to the northern lakes, in that same narrow band, encompassing their drainages, then around Green Lake, and south to the interface with Lake Union.

The specific acrobatics that the Densmore Basin does to get down to Lake Union is hinted at but there’s not a lot of great maps, in particular the last section which .  This excerpt from the Seattle Comprehensive Plan Update Draft EIS from May 4, 2015 shows the ‘capacity constrained’ condition. but does highlight the basin and it’s

I dug a bit more and found another mystifyingly badly interfaced GIS portal, this time Drainage Basins layer from City of Seattle, embedded below.  Again, need to download the data and have a bit more freedom to sort it out in order to display it in a better way, but you get the idea from this map (especially if you zoom in on the areas below Green Lake, and can see the basin outline snaking in a thin, gerrymandered strip beside I-5.

 

The lakes themselves fit within the infrastructure systems, as seen below.  The City of Seattle Water and Sewer Map , which I thought would be helpful but really isn’t because you have to zoom way in to show pipes and so lose context, so it  doesn’t clearly articulate the drainage system elements enough to isolate (i included a few screenshots), so probably need to get some GIS files to draw these and separate mains, branches, etc. to isolate systems, but the narratives are pretty clear in explaining the outfall scenarios.

Haller Lake, which is around 15 acres of drainage, and has a maximum depth of 36 feet, get’s inputs from adjacent residential drainage areas (280 acre drainage), now drains via the Densmore system, as mentioned in State of the Waters, Vol II, the lake “…discharges through an outlet control structure on the western side of the lake, eventually draining to Lake Union via the Densmore storm drain system.”

Bitter Lake, measures 18.4 acres with a max depth of 31 feet, draining a smaller area (159 acre drainage). This lake is also being drained into the Densmore system, from the State of the Waters, Vol II, page 25: “At its southeastern end, Bitter Lake drains through a piped outlet that runs through a series of small ditches and culverts before entering the Densmore storm drain system on Aurora Avenue North.  The Densmore system is equipped with a low-flow bypass, which conveys runoff directly to Lake Union. Under high-flow conditions, runoff passes through Green Lake before discharging to Lake Union.”

Green Lake, has a surface area of 259 acres, and a shallow depth, maxing out at around 30 feet, drains a basin of 1875 acres of surrounding area, as well as getting inputs from the Densmore system, as mentioned above.  Alas, it now no longer drains into Ravenna Creek, but is diverted, per the State of the Waters, Vol II, and“now discharges to Lake Union through a single outlet located near Meridian Avenue North.  In the past, Green Lake also discharged to the combined sewer system via a number of outlets around the lake. However, these outlets were recently blocked and now are used by Seattle Parks and Recreation only during rainstorms of long duration when the Meridian Avenue North outlet is not adequate to maintain water levels in Green lake.”

 

HEADER: Haller Lake from above – via Windemere

 

 

Washington Water Toponyms

Jason Kingcreeks, landscape, language, maps, places, rivers, streams, washington, watershedsLeave a Comment on Washington Water Toponyms

I’ve been inspired by the work many others have done to capture the qualities of coverage of waterways at national scale both in the US and the UK, and beyond the mapping, appreciate their investigations into the unique distribution of place names, or toponyms.  The language of the waterways informs more local hidden hydrology endeavors, and understanding regional vernacular variations provides a snapshot into our varied relationships with water.  While a glance at the Pacific Northwest via these other maps shows that the predominant name for waterways is probably going to be either creek or river, I wanted to dive a bit deeper to see what other names are used to denote waterways.  To accomplish this, I spent some quality time with the USGS National Hydrography Dataset (NHD) to unlock a bit of the secrets of regional variations.

For starters, the NHD is an amazing resource of information, pulling together a comprehensive collection of data on flowlines, watershed basins, and more and the ability to get data from a variety of formats for small to large basins and states.  From their site, the purpose of the data is to: “define the spatial locations of surface waters. The NHD contains features such as lakes, ponds, streams, rivers, canals, dams, and stream gages, in a relational database model system (RDBMS). These data are designed to be used in general mapping and in the analysis of surface water systems.”  The first steps are a bit daunting, as the State of Washington included data with over 1.3 million flowlines, seen below in aggregate. The flowlines aren’t any one single waterway, but are the individual segments that make up each creek.

While the data preserves local basins shapes by sprawling outside state lines, I wanted to make this unique to Washington, so needed to clip it to the state boundary.  This ended up being a bit of a task for my rather slow computer to crank out the clipping, so I had to think of some alternatives to simplify the dataset.  Interestingly enough, over 80 percent of the flowlines (around 1.1 million of them) are unnamed, and while I’m sure are perfectly lovely bits of creek and river, they don’t help in our purpose in terms of deriving place names.  Eliminating them also serves the dual benefit of reducing the size of our working dataset quite a bit.  After trimming to the state boundaries, we ended up with a nice workable set of around 170,000 flowlines that have names, seen below.

Per the NHD FAQ page, “Many features also are labeled with the geographic name of the feature, such as the Ohio River. The feature names must be approved by the Board of Geographic Names (BGN) in order to qualify for inclusion in the NHD.”  More on the BGN and the wonderful assortment of place names that exist in these lists beyond their descriptor (which is perhaps the fuller idea of toponyms), in this case we break down the list and see what comes to the top.   Not surprising, but the use of the terms Creek and River dominate the landscape of Washington, accounting for 98% of all named flowlines.

Of the totals, creeks truly dominate, with around a 75% chance that a trickle of water in the state will be referred to as a creek.  The larger, less numerous rivers make up 23% of all flowlines, and the map above paints a wonderful portrait of the density of waters.  Separated out by type, you see the branched structures of trunk and stem that pumps water through most of the mountainous west side of the state, with the larger, drier plains to the east more open.  All total the combined length of these equals over 30,000 linear miles.

1. CREEKS

2. RIVERS

So we live in a creek and river area of the world.  Amidst these dominating toponyms are a distributed layer of types of flowlines that make up the remainder of the story of Washington, that final 2 percent, emphasized in a darker blue below.

The secondary naming of these includes the most common, isolated and color coded, with a legend denoting the eight most common alternative flowline names.

The relative percentage as a portion of that slim 2% of state flowlines, include:

  1. Slough (30%)
  2. Fork (16%)
  3. Canal (16%)
  4. Ditch (9%)
  5. Wasteway (4%)
  6. Branch (4%)
  7. Run (4%)
  8. Stream (3%)

The remaining 14% are composed of small portions that include Lateral, Brook, Drain, Slu (a variation of Slough), Gulch, Channel, Siphon and it’s alternative spelling Syphon, Washout, Waterway, Swale, Glade, Pass, Gate, and Range.  Many of these as we see, are geographically located towards the center of the state where agricultural landscape has created larger modifications and creation of waterways (described in the NHD data under the names like Artificial Path, Canal Ditch, and Connector).  There’s a split between more traditional waterway name variations (i.e. Slough, Fork, Branch, Run, Stream) and those that mostly utilitarian, capturing the poetry of industrialization (i.e. Wasteway, Ditch, Canal, Siphon, Lateral).  Removing the background landform, you see the composite of the different stream types as a whole, with creek/river in blue and the remainder by color.

For a more local view, the NHD data is a bit less sparse, not capturing the same amount of complexity is smaller urban waterways, plus without the other water bodies like lakes the geography seems somewhat off.  The purple to the west in the Olympic Pennisula shows a density of flowlines referred to as streams, and the darker red denotes a number of local sloughs that exist in local river systems.  It’s harder to see, but you can catch the Ship Canal in this group, and the slightly lighter red fork in the center is the infamous Duwamish Waterway, the lower stretch that runs through Seattle and ‘lost’ its designation as a river – interestingly enough it’s the only flowline in the state with that moniker.

I was expecting the dominance of creeks and rivers in the nomenclature, but was also really surprised that these combined to make up so many of the collective flowlines. Perhaps early settlers and place-namers lacking a bit of creativity.  It was also a good surprise to find a wealth of other place names in Washington, albeit many used to describe man-made features, including the most poetic name of wasteway, but enough fun to find an occasional branch, fork, brook, and run, which are more common elsewhere in the United States, per the other US maps.

These are pretty basic graphics exported from GIS just to give a feel for the data, so I’d like to play around more with representation, perhaps some sort of heatmap.  Also I’m eyeing Oregon for a comparison, and maybe wanting to dive into the waterbodies as well beyond linear flowlines, so more fun to come.  Who knows, an atlas of the whole country with a top ten of their most common names of each state.  Or maybe not…

HEADER:  Excerpt of River and Stream Composite Map – data from ESRI, NOAA, USGS – Mapping by Jason King – (all maps in post same attribution, © Jason King, Hidden Hydrology, 2018)

A Place for the Senses, Part 1 – Smellscapes

Jason Kingart, case study, design, landscape, language, literature, maps, rivers, senses, streamsLeave a Comment on A Place for the Senses, Part 1 – Smellscapes

The exploration of hidden hydrology takes many forms. While often focusing on the visual through maps and illustrations, and the verbal, through documents and texts, there’s a range of other sensory experiences that connect lost rivers and buried creeks to our modern life.

It is vital to connect the lost experiences with actual places, if only help imagine what was there previously, as well as to, surprisingly, find the traces and fragments of the palimpsest that remains after decades or even centuries of erasure. Beyond the idea of just being mere ground-truthing as a method of connecting the maps and texts to actual places, is the ability to engage other senses of touch, hearing, and  We engage and use our brains differently when we’re outdoors versus indoors, as a recent study showed that “…brain activity associated with sensing and perceiving information was different when outdoors, which may indicate that the brain is compensating for environmental distractions.” 

At the root of this is physically experiencing spaces through exploration and discovery. While we will dive into the more specific literature and potential for walking/flâneury in this context of exploration that encompasses our collective sensory experience, for now we will focus on some relevant overlapping themes in terms of specific focused sensing in a spatial frame – specifically soundscapes and smellscapes.  Some, but not all of these fit exactly in the tighter sphere of hidden hydrology, however all do provide valid paths of inquiry that could be directly applied to increasing our understanding and engagement with these buried, disappeared, worlds.

As with all of these explorations, this quickly expanded beyond one post, so I’m focusing first on the concept of smell – and will follow up subsequently with elaboration on other sensory subjects.

Smellscapes

The sounds and smells of water are powerful sensory experiences, which can evoke a range of emotions, hint of hidden landscapes, confront and astound then sooth and delight.  There’s also a strong historical element, outlined beautifully in this CityLab article ‘Sense and the City‘, which discusses Carolyn Purnell’s book ‘The Sensational Past: How the Enlightenment Changed the Way We Use Our Senses’.  in which she shows through explorations of noise, smell, and more over the span of history, “….while our bodies may not change dramatically, the way we think about the senses and put them to use has been rather different over the ages.” 

It is no accident that the events around what led to the massive reconfiguration of London through the burial of rivers into pipes is known as the ‘Great Stink‘, driven by growing water pollution and hot weather which  causing a mass exodus due to the notion that the smells could transmit disease, which was coupled with recent cholera outbreaks.  As mentioned in the Wikipedia article “The problem had been mounting for some years, with an ageing and inadequate sewer system that emptied directly into the Thames. The miasma from the effluent was thought to transmit contagious diseases, and three outbreaks of cholera prior to the Great Stink were blamed on the ongoing problems with the river.”  The scientist Michael Faraday, who investigated and wrote a letter on the poor conditions of the Thames, is depicted in this Punch Cartoon from 1855 holding his nose and “…giving his card to Father Thames”, commenting on Faraday gauging the river’s “degree of opacity”

And while access to land and reduction of negative impact so the irony of much urban modernization of rivers by burying them was often driven by smells, fear of pollution via miasma, or legitimate issues with outbreaks like cholera, the so called “Monster Soup” via the 1828 image by William Health depicting the water of the Thames.

Expanding that notion, I recall this map, via CityLab, of the ‘Stench Map” from the “Charles F. Chandler Papers,” Columbia University Rare Books and Manuscript Library, which was described as a “Map Showing Location of Odor Producing Industries of New York and Brooklyn, circa 1870”

They quote Virginia Tech historian Melanie Kiechle and author of the recent book “Smell Detectives“, who is quoted in the article about the fascination and challenge of spatially representing sensory data: “Trying to show smells, which are not concrete—they’re invisible, they’re ephemeral, they’re always changing…”.  She also authored this paper in Journal of Urban History called ‘Navigating by Nose: Fresh Air, Stench Nuisance, and the Urban Environment, 1840–1880” [paywalled] where she mentions “City dwellers used their understanding of stench nuisance as detrimental to health to construct smellscapes or olfactory maps of New York City. Such maps identified health threats and guided movements through or out of the city.” 

And another, referenced in this Instagram from the NY Public Library Map Division, entitled “Going the whole hog. The odiferous Midtown West in 1865”, which shows this excerpt from a map “Region of Bone Boiling and Swill-Milk Nuisances” found in “Report of the Council of hygiene and public health of the Citizens’ Association of New York upon the sanitary condition of the city” published by The Citizens’ Association of New York. Council of Hygiene and Public Health in 1865″

The short of it was, in the mid 19th Century, cities were often foul and disgusting places, and, if you want a more thorough and frightening description of the above, visit CityLab’s post “The Sanitary Nightmare of Hell’s Kitchen in 1860s New York”  which describes conditions that inevitably existed throughout many cities at the time.  For rivers, this meant modernization, none as famous as the sewerization of London by Joseph Bazalgette, which tackled the issues of urban pollution and flooding in the mid to late 1800s, while also opening up room for development.

This approach served as a model for many areas around the world confronting similar issues, and serves as perhaps the greatest driver of buried creeks and hidden hydrology in modern cities.  Not solely based on smell, but it was definitely a factor.  In entombing these rivers, we cut off the bad but also vacated the positive associations of the smell of water that couple nostalgia via memory. Good and bad, the evocation of smells of water – ocean funk, tidal salt/fresh water mixing, freshness of a bubbling creek, wet grass, and all things in between have strong impacts on our experiences.  One of these concepts mentioned recently in writings I recall, including both a chapter in Cynthia Barnett’s book “Rain: A Natural and Cultural History“, and featured as Robert Macfarlane’s word of the day, is the concept of “petrichor,” which is much more complex but can be simplified as the smell air before, or after rain, which is so evocative as to support an entire industry, outlined in detail in an Atlantic article by Barnett “Making Perfume from the Rain“.

The role smell plays in our experience and enjoyment of places is often not discussed specifically, beyond nuisances, so it is heartening to see artists, designers, and planners taking on this specific area for study.  We will expand more on the water-specific aspects of this in the future, but for now, a great intro is this wonderful meditation on ‘The Conservation of Smellscapes” from the blog Thinking like a Human, which captures the idea better than I, and which also references a couple of the smellscape pioneers which we will discuss in more length below.

Kate McLean

Anyone interesting in the topic of smellscapes has inevitably come across the amazing work of Kate McLean, especially with recent write-ups in Atlas Obscura, The New Yorker, BBC News, and  Co.Design to name a few.  McLean is an artist and designer and current PhD candidate who focuses on sensory research which is found at her site Sensory Maps. and you can follower her as well on her Twitter account @katemclean.  In her websites explanatory text, she mentions the techniques and use of the visual to represent the sensory: “The tools of my trade include: individual group smellwalks, individual smellwalks (the “smellfie”), smell sketching, collaborative smellwalks, graphic design, motion graphics, smell generation and smell diffusion, all united by mapmaking” 

A 2015 story on “Mapping Your City’s Smells” discusses some of her work, specifically for London, where they developed a ‘dictionary’ of urban smells, “…including less pleasant odors (“exhaust,” “manure,” “trash,” “putrid,” and “vomit” among them) and downright lovely-sounding ones (“lavender,” “fruity,” “BBQ,” and “baked,” for example).”  An aroma wheel developed by the team, captures the complexity of these smells.

From this, they used words in geotagged social media posts to capture a spatial picture of these elements, then mapped them based on concentrations in a Pollock-esque composition showing bad smells along red tones and nature smells in greens.  As noted:  “The researchers envision these maps being used in a variety of ways. Urban planners, they suggest, can use them to figure out which areas of the city smell the worst—and then consider using air-flow manipulation, green spaces, and pedestrian-friendly streets to change them. Maybe computer scientists will one day create a wayfinding app that gives users the most pleasant-smelling path to their destination. Or maybe city officials will be inspired to use social media data to more consistently monitor how their residents are being affected by smells—and by the pollution that creates it.”

An online map of this data also exists from McLeans collaborators Daniele Quercia, Rossano Schifanella, and Luca Maria Aiello, under the auspices of goodCitylife.

Smelly Maps provides an interactive version of the data for London, with some additional Info about this: “Think about your nose. Now think about big data. You probably didn’t realize it, but your nose is a big data machine. Humans are able to potentially discriminate more than thousands different odors. On one hand, we have our big data nose; on the other hand, we have city officials and urban planners who deal only with the management of less than ten bad odors out of a trillion. Why this negative and oversimplified perspective?  Smell is simply hard to measure.  SmellyMaps have recently proposed a new way of capturing the entire urban smellscape from social media data (i.e., tags on Flickr pictures or tweets). Cities are victims of a discipline’s negative perspective, only bad odors have been considered. The SmellyMaps project aims at disrupting this negative view and, as a consequence, being able to celebrate the complex smells of our cities.”  

Zooming in, you get a breakdown on the relative smell density and dominant smell in a dashboard style.

On the interactive side, a smellwalk project from 2014 for Amsterdam gives a good overview of the process, where multiple people walk and record information, with “Over 650 smells were detected by 44 people undertaking 10 smellwalks over a period of 4 days in April 2013. Based on written descriptions from the smellwalkers, 50 broad categories were identified. Both frequently-mentioned and curious smells feature on the map.”

She provides a short description of the results, discussing her expectation of cannabis instead replace with the reality of waffles, spices, herring, laundry, flowers and leaves detected by participants.

“Dots mark the origins of the smells, concentric circles indicate their range and the warped contours allude to potential smell drift in the north- and south-westerley winds encountered on the days of the smellwalks. It is estimated that humans have the capacity to discriminate up to 1 trillion smells and our experience is highly individual; to walk and sniff is to know.”

The color legend breaks down specific dominant smells (both frequently-mentioned and ‘curious) derived from the 650 smells, and a subset of the 50 categories.

The graphical quality of these maps amplifies the the experiential quality, which also I believe makes them more engaging to wider audiences of designers and planners.  The magnitude lines offer an opportunity to zoom in on some specific comments displayed in an engaging way.

A video of this Smellmap Amsterdam is worth a look also:

Smellmap Amsterdam©KateMcLean2014 from RCA IED on Vimeo.

The 2017 New Yorker article “The Graphic Designer Who Maps the World’s Cities By Smell” shows a more localized example, as the author, guided by a kit she downloaded from McLean’s site, later mapped by McLean herself in Greenwich Village.  One of McLean’s own earlier endeavors looked at some specific blocks in New York, with a hyperlocal exercise,inspired by another article from New York Magazine ‘The Smelliest Block in New York‘.

The work blending art and science is a great model, and the representation offers some good lessons for mapping less concrete elements in the urban landscape.  The further parallel with hidden hydrology is in being able to interpret the unseen, as McLean mentions in the Atlas Obscura post, ““Participants are often surprised about how many odors can be detected if you really pay attention to smell,” McLean says. “Humans can differentiate a trillion different smells but we breathe about 24,000 times a day. Much of it can easily go unnoticed.” “

Victoria Henshaw

Another pioneer in the field is Victoria Henshaw, who sadly passed away in 2014. She provided another strong voice in the field of smell, authoring a 2013 book on the subject, Urban Smellscapes: Understanding and designing city smell environments, which was “…contributing towards the wider research agenda regarding how people sensually experience urban environments. It is the first of its kind in examining the role of smell specifically in contemporary experiences and perceptions of English towns and cities, highlighting the perception of urban smellscapes as inter-related with place perception, and describing odour’s contribution towards overall sense of place.”

An urban planner by training and an academic, Henshaw wrote on the topic at her blog Smell and the City, which, along with her book left a wonderful trove of info on the topic. An interview in Wired UK “Odour map seeks to save endangered smells‘ hints at an oft-mentioned theme in any writing around the subject: that while we scrub the cities of the bad smells, we also lose the essence of what makes places unique and special.

As mentioned by Henshaw: “”The approach to town-centre management has always been about sterilisation,” she says. “We’ve become so unused to strong smells that we now have adverse reactions to them.”  This disassociation is both the target as well as the opportunity to tap into unrealized sensory design opportunities, as we gain more understanding of the impacts.  One such method as the ability to reroute ventilation systems “to the front of restaurants and entertainment venues — with the intention of attracting more customers,” which ostensibly captures the essence and vitality of a food stall in Barcelona, from her site.

There’s a mention as well of a Global Smell Map that seems to be no longer viable as it doesn’t have any info.   A later article by Henshaw as well from 2014 ‘Don’t Turn Up Your Nose at the City in Summer” focuses the nose on New York, which for her was ‘The season of smell”, where smell becomes a factor in the original city grid layout to “maximize the benefits of westerly winds to dissipate the supposedly deadly miasmas thought to spread disease…” as well as industrial pasts, even long after the smoke stacks go cold, mentioning that “In London’s Olympic Village, for example, the main stadium was built on a former industrial zone — and when it rains, locals report detecting the smell of soap seeping from the site of an old factory.”

She mentions the sociology of smell as well, mentioning external issues like waste-treatment facilities and their smelly impacts often being located in poorer areas. “Smell also provides a sociological map of the city. Poorer people tend to have less control over their smell environments.”  The experience of smell-walks and close observations of senses, provides a new way of seeing and understanding places, and although sometimes foul, Henshaw’s advice is sound:

“But don’t hold your nose. Teach yourself to parse the city’s odors and you will find a new dimension of urban experience opening up before you. Accept the olfactory.”

McLean and Henshaw, along with a cast of others also helped co-edit the recent literature on the subject in the 2018 book  “Designing with Smell – Practices, Techniques and Challenges”, which offers “case studies from around the world, highlighting the current use of smell in different cutting-edge design and artistic practices…” [with] “…an emphasis on spatial design in numerous forms and interpretations – in the street, the studio, the theatre or exhibition space, as well as the representation of spatial relationships with smell.”

As mentioned, this detour into the realm of senses and smells may seem counter to the investigation of hidden hydrology, but these examples connect the hidden to the physical world through exploration, and also provide compelling ways of using these investigations of place while presenting graphic information that is compelling, interactive, and data-rich.  Next we will dive into another sensory exploration, that of soundscapes.

HEADER: Smell Map by Kate McLean – via Medium

 

 

 

 

Disappearing Rivers of the US West

Jason Kingcreeks, drinking water, infrastructure, maps, rivers, streams, watershedsLeave a Comment on Disappearing Rivers of the US West

An interesting project from Center for American Progress, The Disappearing West “maps a rapidly changing landscape, explores what is being lost, and profiles a new movement for conservation that is gaining ground.”  The project documents both land and rivers, with an eye on the impacts of development (urban, dams, mines, and more) on these systems, and provides data and maps on their current conditions.  From a water point of view, this information provides a new level of detail on river health in the Western United states.

Through the Disappearing Rivers project, the Center for American Progress is providing the first comprehensive snapshot of the condition of Western rivers. “

The documentation is compelling, and punctuated with some fun graphics, as seen in the amount of rivers modified from their natural states, including levels of headwaters, smaller rivers and streams, and major rivers. The results are staggering. “Often portrayed as continuous lines on a map, modern-day rivers are fragmented and impaired versions of their former selves. Waterways that once supported navigation and enabled adventurers to explore the West are no longer passable in their entirety. In fact, the average length of a river in the West has been reduced by 84 percent.”  

And some of the graphics have a bit of whimsy – highlighting the impacts of dams on fish… and reinforcing what we already knew, that it is oh, so very sad that they just wait, and wait for that dam to be removed.

The maps as part of this project are the focus of what I wanted to include, as they are compelling visually.  I first heard of this project via Twitter, from a link from the mapmaker John Gage from Gage Cartographics, (via Twitter @gageCarto) who described using 400,000 flowlines from the National Hydrography Dataset to create the mapping for the entire west coast (see header image above) with layers of embedded data using the amazing suite of tools from Mapbox GL.  Stream-level data, like this snapshot of the Portland area and extent of floodplain alteration, sit on a dark background for good contrast, and shift with a gradient from red (high degrees of alteration) to blue (low degree), and highlighting the impacts of urban development on rivers and streams in a beautifully tragic way.

The same view, again of Portland, showing flow restriction, which is less problematic, but is highlighted with some key spots, interestingly enough the outflow from the Sandy River east of Portland.

Larger, thematic maps provide watershed and other coverage, including extent of floodplain alteration. As you can see from the Seattle image below, the extent of alteration of urban floodplains, not surprisingly, is greatest in urban areas, and the Salish Sea coastal areas show up to 90-100% levels of alteration.

There’s also mapping of dams by size of their capacity, again with a dark background highlighting the point data.

The map functionality allows for selecting layers and different base maps, along with extracting specific information from map elements.

The use of hover pop-ups is great as well, conveying location-specific information such as stream info, or watershed-level data for impacts in Washington like the map below showing irrigated lands.

My focus is on some northwest zones, but the project spans the entire west, and there’s also an animated tour of the Colorado River, which employs some interesting story mapping techniques.  The animated slides take you through the story of what is “…Sometimes called ‘America’s hardest working river,'” and describes the conditions that cause “…over half (54%) of the Colorado River is dammed, diverted or otherwise altered from its natural state.”  Using a number of different maps themes, views, and animations, along with text and photos, it paints a compelling story of the impacts of the river, including a major impact, dams.

There’s a ton of info, including links to download the map data as well, via a site for the Disappearing Rivers of the Western United States, which “Disappearing Rivers is the culmination of an analysis by Conservation Science Partners, in association with the Center for American Progress, to investigate how human development has altered rivers in the eleven western states. The objective of Disappearing Rivers is to quantify the degree to which human activities have altered rivers in the western US. We separated this objective into two primary components: flow alteration and floodplain alteration. The Disappearing Rivers gallery contains river and stream flowlines data with associated flow and floodplain alteration attributes.”  The site is loaded with good info, and the maps and graphics help tell a compelling story that complements the data.  The power of maps, and the overall ability to convey tons of information on easy to use, online maps, still blows me away.  Check this out – worth some time.

HEADER: Snapshot of West Coast Flow Restriction – Disappearing Rivers

A Fish-eye View

Jason Kingcity, lidar, maps, photography, places, portland, rivers, seattleLeave a Comment on A Fish-eye View

A fun story about an interesting project being developed to provide a version of street view, only for rivers. From the story on knkx, “‘FishViews’ Mapping Tool Provides Virtual tours Of Local Rivers”  which announced they had “…just finished mapping its sixth Northwest river, the Stillaguamish. Other tours include Lake Washington, Lake Union, Shilshole Bay and the Locks. They’re all enabled for virtual reality headsets and you can cruise along at your preferred speed, or zoom around the panoramic images with your cursor, like you might on Google. You can even take a peek underwater. There’s definitely a “gee whiz” factor.”

From their site, FishViews aims to explore waterways and waterway data with virtual reality tours, but they also have a ton of other practical uses.  Focus areas at this point include Seattle area and some more remote locations in the Cascade Range and Olympic Pennisula, including their first, the somehwhat recently dam-free Elwha River (seen in the header above).  Additionally zones in Texas around San Antonio and Houston have also been mapped by the FishViews team.  You can access via guess account, or sign up for full access to some of the info – and other than having to sign in over and over again, I’d highly recommend losing a few hours, as it’s a lot of fun.

The interface is powered through ESRI storymap format, so has a pretty intuitive user experience of selecting through map icons or on a slider, with the ability to search as well.  Lots of these early maps focus around the Seattle.  One worth checking out is the Lower Duwamish, which encompasses the lower 12 miles of the Green River drainage, now so manipulated it lost its designation as a river and is now only “known as the Duwamish Waterway”.  Each ‘tour’ has a bit of introductory info.

Probably few have the chance to boat the 12 mile stretch of the Duwamish, and it’s telling to tour the edges and discover the massive industrialization of the entire shoreline.

And also the moments of sublime beauty, which are reflected in a similar fashion to this previous post on the Duwamish River from the book ‘Once and Future River’, such as what may be the longest waterfront facade without a window, to the industrial beauty inherent in this context.

The access to metrics is sort of an interesting take, with a variety of info available in a pop-up, such as resistivity and conductivity, dissolved solids, temperature, salinity, and dissolved oxygen, as seen below for the Duwamish (at least when this data was being collected).

A few more shots, including the area connecting the Ship Canal to Lake Union.

And for smaller lakes, a nice coverage around the shoreline of Green Lake – also showing, similar to the beauty of Street View in capturing art – there’s some amazing shots of these aquatic resources as well.

In Portland area, they done an initial mapping of the Willamette, which is a nice tour around the city.  An option as well to have the scene data in the lower corner also provides some context – but it drives a lot like Street View.

The ability to animate by linking the frames together is not a terribly enjoyable experience – although you can adjust frame rate. Think along the lines of a boat ride with a queasy stomach,but is a nice way to tour through a route to see what it holds.  A view of the northern section of the Willamette shows this in action.

The underwater view is probably a lot more interesting in shallow water rivers and creeks, but pretty much looks a lot like this in both Portland and Seattle.

Although I was secretly hoping for robot fish, the technology for FishView’s capture technology is similar to information gathering for Street View, with a similar 360 camera rig, along with a variety of other sensors.

While the cameras are catching the views up top, they are employing some selective sub-surface cameras, as well as customized data logging equipment.  Their process also does surveying and “…collects data below the surface. We deploy leading edge sonar technology for mapping, imaging, and exploring underwater. We use EPA standards for detailed water quality assessments and HD photography for below the surface insights. All tailored to our Virtual Reality Platform.”

The company also provides these services, per their site: “FishViews offers interactive 360° virtual tours and virtual reality for aquatic resource management. We incorporate a wide variety of hydrologic survey methods in order to produce a personalized, high-quality presentation that works specifically for your waterway data survey needs. From a stand alone 360° panoramic tour, to a comprehensive virtual reality model of an entire waterway, we create virtual platforms giving hydrologic data a home, complete with a custom-designed user interface. Our individual approach will ensure all your hydrologic survey requirements are met.”

The virtual reality component also sounds interesting, with access via phone based or immersive VR goggles – probably instinctively causing one to hold their breath, at least for a second or two.  Some more coverage via GeoAwesomeness “FishViews: Mapping the world’s waterways one mile at a time”, a video from Vice News on the project, and a PDF of a story from Pacific Standard, ‘Eyes on the River‘.

The possibilities of this seems pretty intriguing.  There’s obviously a scale aspect of , but the examples from Green Lake (seen in a VR snapshot above) Lake Union, and the Ship Canal and Locks and Discovery Park shoreline are all great explorations of urban waters in a way yet to be seen – a true key to unlocking some hidden hydrology.

And thanks to @pugetpeople for the tip on this one!

HEADER:  Screenshot of Fishview map of Elwha River – via KNKX

Playing with Water

Jason Kingart, cultural, landscape, parks, photography, places, projects, riversLeave a Comment on Playing with Water

I tweeted a bit back that I’m reading the book Rivers Lost, Rivers Regained: Rethinking City-River Relations, and so far it hasn’t disappointed.  More info for sure on some of the great content on cities and rivers forthcoming. However, an intriguing  concept mentioned in the intro was the Japanese concept of shin-sui, which the authors loosely define as “playing with water”.  They mention these in an overall trend of cities refocusing on their urban rivers, and specifically of ways to encourage people reconnecting with these urban waterways. The authors bring up urban waterfront parks, and mention these “shin-sui” parks as a way of connecting with natural processes:

” “Although these projects were conducted for recreational rather than ecological purposes, they helped to turn people’s eyes back to nature.”  (18)

Translation being a tricky thing, there’s multiple meanings that emerge when one starts digging into the concept of shinsui (and someone with a grasp of Japanese beyond my total lack thereof please correct me).  Online definitions, include water references, summarily – flood, fuel & water, inundation, as well as having meanings for adoration, cooking, salary.

Another reference in a book that popped up in a Google search, Japan for Kids, has a great way of describing the parks a friendship: “A new concept in neighborhood playground is a ‘shinsui park.’  Shinsui means literally ‘to be friendly with water.’ A shinsui park is one with plenty of water attractions that provide children with a chance to get use to water by playing in it.” (127)

The designs for these transcend the mere “splash play” or water park, but do share some of the same elements of interactivity and immersion.  Owing to the diversity of density of Japanese cities, they are often narrow, but it does show the potential for even abstracted water courses to co-exist with urbanization.

Otonashi Shinshi Park is one of these very urban examples, located in the northern area of Tokyo and literally wedged in a channel between development.  You get a feel for the scale and elements, in this case a high-walled channel that opens up to some more interactive and tactile elements.

A little more lush version from photographer Andy Serrano is found at Oyokogawa Shinsui Park, which he describes: “The park runs alongside the Oyoko-gawa River in the Sumida Ward of Tokyo, and is a popular place for local residents who play, walk, fish, and even swim there. With the Tokyo Sky Tree looming nearby, cherry blossom season gives visitors a taste of Japan’s dual natures: historic traditions side-by-side with ultra-modernity, natural beauty next to futuristic technology and architecture.”

The Tanada Shinsui Park on the Houzuyamma River in the village of Toho in Fuuses some vernacular elements to create a “River pool…for the infant and elementary school children [and the] …”Koinobori pool” river pool is a pool that uses the difference in height of the rice terraces.”

Another urban example is sculptural pools of the Arima River Shinsui Park near Kobe, Japan, which is located near Arima Onsen, one of the oldest hot springs locations in the country.

As mentioned, these few examples I’ve show are not about restoration, and vary from just parks by the river to ones with active recreation elements focused on water.  While natural edges occur, many are somewhat channellized, highly designed and very abstracted river environments — akin the art-side of the conceptual continuum of restoration.  The goal here is more recreational, but, as the editors of Rivers Lost mention, they may provide a powerful precedent for engaging people of all ages with their natural waterways, and informing urban residents on the natural processes

 

HEADER: Otonashi Shinsui Park – Tokyo, via Japan by Web