EARTH ARCHITECTURE Ronald Rael Princeton Architectural Press | New York Published by Princeton Architectural Press 37 East 7th Street New York, New York 10003 For a free catalog of books, call 1-800-722-6657 Visit our website at www.papress.com © 2009 Princeton Architectural Press All rights reserved Printed and bound in China 12 11 10 09 4 3 2 1 First edition No part of this book may be used or reproduced in any manner without written permission from the publisher, except in the context of reviews. Every reasonable attempt has been made to identify owners of copyright. Errors or omissions will be corrected in subsequent editions. Editors: Linda Lee and Dorothy Ball Acquisitions Editor: Clare Jacobson Library of Congress Designer: Paul Wagner Cataloging-in-Publication Data Special thanks to: Nettie Aljian, Sara Bader, Rael, Ronald, 1971– Nicola Bednarek, Janet Behning, Becca Casbon, Earth architecture / Ronald Rael. — 1st ed. Penny (Yuen Pik) Chu, Russell Fernandez, p. cm. Pete Fitzpatrick, Wendy Fuller, Jan Haux, Includes bibliographical references. Clare Jacobson, Aileen Kwun, Nancy Eklund Later, ISBN 978-1-56898-767-5 (alk. paper) Laurie Manfra, Katharine Myers, 1. Earth construction. 2. Architecture, Modern—20th Lauren Nelson Packard, Jennifer Thompson, century. 3. Architecture, Modern—21st century. I. Title. Arnoud Verhaeghe, Joseph Weston, and TH1421.R34 2008 Deb Wood of Princeton Architectural Press 721’.0442—dc22 —Kevin C. Lippert, publisher 2008010582 This book is dedicated to my parents, Christina Casias Rael, whose wisdom and character was shaped in a small adobe house built by her grandfather in the isolated village of La Florida, Colorado, and Miguel Arturo Rael (1945–2008), an honest and hardworking builder who left a legacy of adobe, wood, steel, and concrete in the San Luis Valley, Colorado. Anyone who has met them knows how special they were and are. 8 Introduction 16 Chapter 1— Rammed Earth 20 Rammed Earth Houses 52 National Wine Centre 92 Amankora Bhutan Resorts Jourda & Perraudin Partenaires Grieve Gillette and Cox Architects Kerry Hill Architects 24 Bowali Visitor Information 56 Eden Project Visitor Centre 96 R ed Hill Residence Centre Grimshaw Architects Christopherchris Architecture Glenn Murcutt & Associates and Troppo Architects 60 Sihlhölzli Sports Facility 100 B ack 40 House Storage Sheds and Gallo Powell Consortium 28 Low Compound Chronometry Tower Jones Studio Roger Boltshauser Architekten 104 Nk’Mip Desert Interpretive Centre 30 Ooi House 64 S plit House Hotson Bakker Boniface Haden Kerry Hill Architects Atelier FCJZ 108 R esidence 1 32 Palmer-Rose House 68 Cemetery Extension and Drachman Design-Build Coalition Rick Joy Architects Chapel of Rest Marte.Marte 36 Poll House, Margaret River Gary Marinko Architects 72 Center of Gravity Foundation Hall Predock Frane Architects 40 T hurgoona Campus of Charles Sturt University 76 Residence at Meteor Vineyards Marci Webster-Mannison Cutler Anderson Architects 44 Chapel of Reconciliation 80 Vineyard Residence Reitermann and Sassenroth John Wardle Architects 48 Mason’s Bend Community 84 Rosie Joe House Center Design Build BLUFF Rural Studio 88 Zousei Architecture Manabu + Nez/Loco Architects Contents 112 Chapter 2— 156 Chapter 3— 178 Chapter 4— Mud Brick Compressed Earth Block Molded Earth 116 La Luz Community 160 Villa Eila 182 Baninajar Refugee Camp Antoine Predock Architect Heikkinen-Komonen Architects Housing Nader Khalili 120 Matthews Residence 164 Kahere Eila Poultry Will Bruder + Partners Farming School 184 Waldorf Kindergarten Heikkinen-Komonen Architects Planungsbüro für Ökologisches 122 The Eco House Bauen Kassel Arkitekt Sverre Fehn AS 168 N3 de Paor Architects 186 House of Earth and Light 126 Camacho Residence Marwan Al-Sayed Architects Ltd. The Adobe Alliance 170 Center for the Blind Taller de Arquitectura Mauricio Rocha 190 Extension for the Charcoal 130 Arrillhjere Demonstration House Burner’s Hut Brendan J. Meney Architects 174 Primary School Smiljan Radic Diébédo Francis Kéré 134 Druk White Lotus School 192 Cobtun House Arup Associates Associated Architects 138 Bodega en Los Robles 196 Peñalolén House José Cruz Ovalle, Arquitecto Sur Tierra Arquitectura 142 Cocuy Pecayero Distillery 198 Handmade School Rafael Mattar Neri, Arquitectos Asociados Heringer-Roswag Cooperation 144 Casa Corralones Mathias Klotz Arquitecto 202 Afterword—The Future 148 Prada Marfa 203 Acknowledgments Elmgreen & Dragset 204 Notes 206 Design Credits 152 Christine’s House 207 Selected Bibliography Rural Studio 208 Image Credits Introduction— A New Look at the Oldest and Most Widely Used Building Material on the Planet 8 It is estimated that between a third and a half of the world’s pop- Earth is often typically seen as a building material only ulation—approximately three billion people on six continents— used in rural environments; however, a wealth of earth architec- lives in buildings constructed of earth.1 The typologies of earthen ture can be found in urban environments. Called “the Manhattan architecture, however, extend beyond buildings for living, and of the Desert,” the city of Shibam, Yemen, has a population den- include structures for working and worshiping, as well as the sity approaching that of New York City, with thirty-two peo- countless forms of earthen architecture that are not inhabited by ple per acre, and is home to the world’s first skyscrapers: a dense humans, such as agricultural buildings, city walls, and monu- cluster of five hundred tower houses rising up to nine stories high ments. In India there are estimated to be as many as 80 million constructed entirely of mud brick.6 Contrary to the perception of dwellings made of earth, and in China the number of people living earth as a fragile, ephemeral material, earth buildings also repre- in earthen homes is estimated to be 100 million. 2 In France 15 per- sent the oldest extant buildings on the planet. Using approximately cent of rural buildings are made of rammed earth, and the United 7,000,000 mud bricks, the Ziggurat at Ur was constructed in 4000 States is the leading consumer of mud bricks in the industrialized B.C.E. Taos Pueblo in New Mexico, constructed between 1000 and world.3 This makes the ground we walk on and cultivate our crops 1450 C.E., is the oldest continuously occupied dwelling in North in the most widely used building material on the planet—that’s America, and constructed entirely from raw earth. right, dirt. This does not include, nor should be confused with, There are perhaps twenty different methods of employing other materials that come from the ground, such as stone, cement, earth to construct walls, floors, and roofs of varying dimension and or metals derived from ore. Earth, by this definition, is simply clay, form.7 The adaptability of the material has allowed it to respond to gravel, sand, silt, or other friable soils, in which organic materials a wide range of contexts, cultures, and epochs, including the spec- sometimes exist. Because of the ubiquitous availability of appropri- trum of architectural history from antiquity to the modern era. De ate soil, buildings constructed of earth can also be found just about Architectura, or Ten Books on Architecture, as it is known today, everywhere—in almost every terrestrial biome on the planet. written by the Roman architect Vitruvius, is the only treatise on Earth buildings are commonly perceived to be used only architecture surviving from classical antiquity, and it continues to by the poor or found only in “developing” countries, but there are be an invaluable reference for architects. The primary qualities he earth buildings of almost every architectural type in use by every felt architecture should represent were firmitas, utilitas, and venus- economic and social class in both the industrialized and non- tas—durability, usefulness, and beauty. Inherently, earthen archi- industrialized worlds. Airports, embassies, hospitals, museums, tecture represents this triad of values, and he wrote extensively on and factories are just a few examples of the variety of earth build- the topic. During Vitruvius’s time, Rome was “a warren of wind- ing types found throughout the world. For example, the Seyoun ing streets and precarious multistory tenements (6–8 stories high), Airport in Yemen uses concrete columns and beams with mud brick of mud brick and half-timber with cantilevered wooden balco- infill walls. Many middle-class and wealthy residents inhabit the nies.”8 Vitruvius writes of the use of mud brick in the construction vast mud brick suburbs of Santa Fe, New Mexico. Ronald Reagan’s of city walls and devotes an entire chapter in Book II to mud brick Rancho del Cielo, also known as “The Western White House,” masonry, describing with great respect the methods for making in California; Saddam Hussein’s childhood home in Iraq; the his- and stacking mud bricks. He speaks of lightweight waterproof mud toric home of Paul Revere, also the oldest house in Boston; and bricks made of pumice that once dried are able to float on water.9 Chairman Mao’s childhood home in China were all constructed Vitruvius also writes about the mud brick cellae of the temples of of earth.4 Several of the buildings housing the minimalist artist Jupiter and Hercules and the mud brick residences of Attalid kings Donald Judd’s vast and priceless collection at the Judd Foundation in Marfa, Texas, are made of mud brick.5 Such diversity speaks to the wide spectrum of philosophies, social strata, and cultures rep- resented by this universal material. For thousands of years, mud bricks have been shaped by hand and allowed to dry in the sun to create a durable and long-lasting building unit. 9 and Croesus. He also noted that, “mud brick walls, so long as they Cointeraux, a French architect born in 1740, is considered are standing upright nothing is deducted from their assessment, the father of modern earthen architecture. After his “discovery” but whatever it cost to make them, they will always be assessed at of pisé de terre, the rammed earth architecture of the rural French this value. And so in some cities, public works and private homes countryside, he was awarded a gold medal in a competition hosted alike, even royal palaces, are to be seen made of mud brick.”10 by the Academy of Picardy for a design that used rammed earth as But it is the modern era that is most relevant to this book, an inexpensive fireproof construction method. His first “incom- and in the eighteenth century the questioning of Vitruvius’s work bustible house,” erected in Chorges, in the commune of Hautes- had profound effects on the culture of architecture. The move- Alpes, in 1786 was well received and considered advantageous for ment away from neoclassicism allowed architects “to establish a use throughout the European countryside at a time when most more objective basis on which to work,” and from this emerged a houses were constructed of highly flammable timber frame and new way to conceive of architecture at the dawn of modernity.11 wattle and daub. The early success of Cointeraux’s work subse- However, the traditions of earth were so embedded in the culture quently prompted him to devote his entire life to the study and of building that within the modern movement exists a not-so- dissemination of earthen architecture. He hoped that the use of well-known history of modern architects reconsidering earth as rammed earth could contribute to improving life in France, which a material in an era more famous for the use of steel, glass, and had suffered from the social, economic, and psychological burdens concrete. The Four Elements of Architecture, Gottfried Semper’s of several wars, and he believed that it could be a means by which “epoch-making theoretical departure” from Vitruvius, challenged the common man could improve the quality of his own life.14 He neoclassical thinking, but still drew from the tradition of build- developed a typology of earth architecture encompassing a com- ing with earth. His “four elements” included roof, hearth, the plete range of housing for the poor and the wealthy in both urban earthwork, and the lightweight enclosing membrane—the latter and rural settings, which included four-story town houses, bour- two being architectural components based upon load-bearing geois country mansions, and designs for public buildings, churches, masonry or piled massive earth, such as mud brick or rammed earth, and factories—many of which were built.15 and the lightweight enclosure membranes being made of wattle In the same year that Cointeraux completed his incombus- and daub. 12 tible house, the Duke of Bethune-Charost, lieutenant general of Furthermore, not only were the traditions of earthen con- Picardy, invited him to experiment with rammed earth construc- struction being employed at the dawn of the modern movement, tion in Amiens. He was not well received, however, especially by it has been suggested that the evolving use of modern materi- timber and stone merchants and a wide range of craftsmen who als was directly influenced by traditional earthen construction feared that if pisé became widely accepted they would lose their techniques. For example, the origins of modern concrete can be livelihood. Master masons and carpenters in Amiens approached directly linked to advancements made in pisé (rammed earth) in the police to complain, and Cointeraux was chased out of the city.16 France. Advancements in this humble construction technique, such His models were then destroyed by the craft guilds who were allied as developing efficient formwork, experimenting with appropri- to the wood merchants.17 ate aggregate sizes, and adding cement stabilizer, as Jean Baptiste Despite this setback, Cointeraux persisted, and in 1788 he Rondelet had when repairing the château in Ain, were some of founded a school of rural architecture in Paris. By teaching and the first steps toward the development of modern béton (concrete) publishing fifty works translated into eight languages, including traditions in France. As Peter Collins points out, “it was inevitable English, over the next three decades, he disseminated his exper- that sooner or later some far-sighted individuals should appreci- iments and philosophies in rammed earth. As a result of the ate the revolutionary possibilities of this method of construction, publications, knowledge of pisé spread across Europe and to the and seek to extend it by improving on the material used....The first United States, even catching the attention of President Thomas of the pioneers was an ingenious but ambitious building labourer Jefferson, who visited Cointeraux in Paris to see examples of his named François Cointeraux.”13 work in rammed earth and compressed earth block. During that 10 INTRODUCTION