Mankind and Deserts 2. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

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and sabkhas, permanent lakes with fluctuating shorelines, such as Lake Chad or Lake Eyre, or large allogenous rivers (Volume 2, Chapter 3) that are born outside the desert but travel through the desert, sustaining life, such as the Colorado, the Niger and the Nile, “the first and most remarkable of rivers in the arid world”.

      The role played by salts in hot deserts is rarely discussed in a systematic manner. Guilhem Bourrié, geochemist and soil scientist at INRAE, has analyzed the origins and nature of these salts and demonstrated how important these salt deposits in the desert are for humans, whether they live off agriculture, livestock or, indeed, the salt trade (Volume 2, Chapter 4).

      Chapter 1 of Volume 3, drafted by Joly, was edited after his demise by Yann Callot, a professor at the University Lyon 2 who is a specialist in ergs and dunes. This chapter examines the importance of wind in the desert. Wind, sometimes considered to be more emblematic of a desert than even dryness, counts among the earliest dynamics on Earth, an element that humans have not always been able to control. Indeed, this lack of understanding of wind has sometimes had disastrous consequences for certain projects (see the Green Dam in Algeria).

      The final chapter in Volume 3, “Living in the Desert”, was taken up by Marc Côte, Professor Emeritus at the University of Provence, who worked as a professor for 20 years at the University of Constantine. He has drawn on his deep knowledge of the land and the people of the Saharan region to present what he calls “The Desert Civilization”.

       Acknowledgments

      Most of the illustrations were refined by Éliane Leterrier.

      Yvette DEWOLF

      Honorary Professor at the University Paris VII, Denis Diderot

      Paris

      October 2020

A man standing in a desert region.

      1 1 Professor at the University Paris VII, Denis Diderot, who spent 15 years at the Moroccan Institute of Science in Rabat.

      Introduction: Water in Deserts

       Because of the minuscule amounts of water and their meteoric variability, the discipline of arid zone hydrology is one of the highest forms of art and science.

      V. Kotwicki, Floods of Lake Eyre

      “Ce qui embellit le désert, dit le petit prince, c’est qu’il cache un puits quelque part…” (“What makes the desert beautiful,” said the Little Prince, “is that somewhere it hides a well…”)

      Antoine de Saint-Exupéry

      It is because of its extreme scarcity, or indeed its absence, that water is so important in a desert, even when it is invisible, when one is searching for it or it is altogether lacking. It is exceptional to find open water sources (there are long periods when these open water bodies simply do not exist) and they are most often found at some depth. Finding water, collecting it, transporting it, using it carefully and storing it are all key issues to be resolved in desert life. Sometimes there is a lack of water because the excessive aridity results in deficient hydrology and a lack of wild water (Joly 2006), while at other times there is a poorly developed hydraulic system, such that domesticated water resources (Prosper-Laget 2001) cannot fulfill the needs of the population they serve.

      Hydrology is the science of water (Cosandey and Robinson 2000) and it is not a discipline that can be easily applied to deserts (Margat 1985). As with climatological data, this scientific field is hindered by a series of restrictions, arising, principally, from small human presence and the highly discontinuous nature of hydrological phenomena, which are scattered through time as well as space. There are, of course, a relatively large number of qualitative observations from nomads and travelers. However, these are often not very objective, difficult to access and unreliable. The quantitative observations that are archived are better monitored and valid, but they are far too scattered as they usually focus on inhabited sites: military or administrative stations, oases, mining or agricultural installations and construction sites.

      Certain phenomena can also be studied using isotopic or magnetic labeling (Adar and Leibundgut 1995), through various mathematical or statistical models (Band 1985; Dassargues 2000) and, above all, through remote sensing (Mering 2008), especially phenomena such as floods, humidity in air and soil, and even the presence of subterranean water (Timmermans and Meijerink 1999). There have also been some systematic projects devoted to observation and measurement (Braquaval 1957; Dubreuil 1972; Roose 1977). However, apart from the large rivers, certain semi-permanent water courses and some large basins of economic interest (mainly related to oil), there has been rather a meager amount of data collected, and what does exist is fragmented, dispersed and patchy. This is partly because many desert zones lie in developing countries, which have economical constraints as well as a restricted qualified workforce. However, it is also because even among the large powers, such as the United States, Russia or China, equipment and regular tracking are allocated only to arid zones considered to be economically “useful” or profitable (Lacoste 2001).

      Adar, E. M. and C. Leibundgut, eds. (1995). Vienna Symposium, 1994, Applications of tracers in arid zone hydrology. Red Books 232. Wallingford, UK: IAHS. 452 pp.

      Braquaval, R. (1957). Études d’écoulement en régime désertique - Massif de l’Ennedi et région nord de Mortchai. Paris: ORSTOM. 92 pp.

      Cosandey, C. and M. Robinson (2000). Hydrologie continentale. Paris: A. Colin. 360 pp.

      Dassargues, A., ed. (2000). Tracers and modelling in hydrogeology. Red Books 262. Wallingford, UK: IAHS. 571 pp.

      Dubreuil, P. (1972). Recueil des données de base des bassins représentatifs et expérimentaux - Années 1951–1969. Paris: ORSTOM. 916 pp.

      Joly, F. (2006). “Les eaux sauvages des régions arides - Notions de base sur l’hydrologie des déserts.” In Geomorphologie: relief, processus, environnement 4, pp. 285–298.

      Lacoste, Y. (2001). “Géopolitique de l’eau.” In Hérodote 102, pp. 3–18.

      Margat, J. (1985). “Hydrologie et ressources en eau des zones arides.” In