… Settlements that follow the pattern of a POLYCENTRIC REGION will also adapt to the terrain of the land, its watershed and vegetation patterns.

* * *

Problem-statement: A region that does not adapt its form to its watershed patterns cannot be sustainable.

Discussion: Every settlement area, no matter how arid, has a hydrology at some scale. In recent decades, it has been common to pipe over the natural system of hydrology, but this is doubly destructive. First, it fails to allow the natural systems to function as they can to clean the water, recharge the groundwater, and support vegetation with natural irrigation. Second, it deprives the human community of an important quality of life asset and sense of connection to their own regional ecosystems.[1]

In order to work with a region’s hydrology, it is vital to recognize its network connectivity through mapping, and then to layout settlement patterns such as streets and infrastructure in response to its “blue-green network” — that is, its network of creeks, watersheds and vegetation corridors. These usually offer segments that can become important blue-green corridors for walking, cycling, recreation and vehicular transportation (with proper mitigation of danger, noise, emissions and other impacts) — see URBAN GREENWAY, Pattern 3.1.

In the 20th Century, we failed to understand the importance of these blue-green networks, and their potential role as a “cooperating network” with human movement networks. We failed also to understand the importance of blue-green networks in providing “ecosystem services,” notably the improvement of water quality.[2] Rather than negotiate a co-existence between these two systems, we allowed human movement systems like streets to dominate and even replace blue-green networks with pipes and concrete ditches. Now we are paying the price for this short-sightedness. We have begun to change our policies and practices to create nested, interacting urban networks incorporating blue-green networks within them. At the same time we must recognize that, while the blue-green network of an urbanized area must be ecologically functional with regard to its ecosystem services and its role in urban wildlife habitats, the primary function of urban regions is to be urban — that is, to establish a pattern that is sufficiently compact to avoid sprawl and to protect surrounding ecologies. As the British Town Planner Thomas Sharp put it, “the true way to save the countryside is to build true sheerly urban towns.”

The blue-green network of Portland, Oregon USA, located at the intersection of two major rivers and a number of creeks and watersheds
The blue-green network of Portland, Oregon USA, located at the intersection of two major rivers and a number of creeks and watersheds: These have been fashioned into major corridors for infrastructure, movement, recreation and ecosystems services. © Google Maps

Therefore:

Layout the settlement with the pattern of blue (watercourses) and green (vegetation corridors and watersheds) networks.

* * *

Identify key corridors of the Blue-Green Network as potential locations for an URBAN GREENWAY or MULTI-WAY BOULEVARD …

  1. See for example De Vleeschauwer, K., Weustenraad, J., Nolf, C., Wolfs, V., De Meulder, B., Shannon, K., & Willems, P. (2014). Green–blue water in the city: Quantification of impact of source control versus end-of-pipe solutions on sewer and river floods. Water Science and Technology, 70(11), 1825-1837. Available on the Web at https://tinyurl.com/ yxfb444j
  2. This pattern is closely related to Goal 6 of the Sustainable Development Goals on safe water and sanitation (adopted by all members of the UN General Assembly in 2015). There are a number of resources that can be consulted for additional information. See for example the World Bank report on water quality and the role of cities, Quality Unknown, available free for download at https://openknowledge.worldbank.org/bitstream/han- dle/10986/32245/9781464814594.pdf ?sequence=8&isAllowed=y. As the report concludes, “The world faces an invisible crisis of water quality. Its impacts are wider, deeper, and more uncertain than previously thought and require urgent attention. While much attention has focused on water quantity – too much water, in the case of floods; too little water, in the case of droughts – water quality has attracted significantly less consideration... Water quality challenges are not unique to developing countries but universal across rich and poor countries alike. High-income status does not confer immunity - challenges with pollutants grow alongside GDP. And as countries develop, the cocktail of chemicals and vectors they contend with change – from fecal bacteria to nitrogen to pharmaceuticals and plastics, for example. What we think of as safe may be far from it.” See also a report by the European Union: “Green infrastructure, as defined by the European Union Green Infrastructure Strategy 2013 is 'a strategically planned network of natural and semi-natural areas with other environmental features designed and managed to deliver a wide range of ecosystem services’.” https://webgate.ec.europa.eu/greencitytool/resources/docs/guidance/ nature.pdf

Design Patterns are easy-to-understand, easy-to-apply rules for creating human buildings and cities. They provide the long-term antidote to recent trends such as cutting down urban trees, creating heat islands, and erecting glass-and-steel high-rises. Rising temperatures in such urban environments threaten the population catastrophically. Violating patterns makes a city highly fragile, establishing a dangerous reliance upon imported energy. Systemic problems cannot be saved by industrial-technological fixes, but by efficient and climate-appropriate design that implements smart thermal planning (shading devices, earth-sheltering designs, etc.). Our cities will survive only if their structure follows patterns.

Mehaffy, Michael W., Yulia Kryazheva, Andrew Rudd, and Nikos A. Salingaros. A New Pattern Language for Growing Regions: Places, Networks, Processes. Portland, Oregon, USA: Sustasis Press, 2019.

Creative Commons License: Share Alike by Attribution https://creativecommons.org/licenses/by-sa/4.0/legalcode

In a special agreement, Sustasis Press has given Architexturez the rights to present twenty of the eighty new patterns from this book, for the exclusive use of architecture students in Asia. These patterns are relevant to a new era of urban challenges, meant to complement the classic 1977 book "A Pattern Language" by Christopher Alexander et al. The new book "A Pattern Language for Growing Regions" implements the New Urban Agenda and the Sustainable Development Goals, including the need for urban resilience, sustainability, and quality of life. The publication of this volume also launches an online pattern language "repository", developed in collaboration with Ward Cunningham, the original wiki developer and pioneer of pattern languages of programming. 

See also …