ECOREGIONS or BIOMES OF OUR AREA
Main sources: Shreve, Forrest, 1951, Vegetation of the Sonoran Desert, Washington, D.C.: Carnegie Institute of Washington Publication 591; Dimmit, Mark, "Biomes and Communities of the Sonoran Desert Region", in Phillips, Steven & Patricia Comus, eds., 2000, A Natural History of the Sonoran Desert, Tucson: Arizona-sonora Desert Museum Press, pp. 3-18; Brown, David, ed., 1994, Biotic Communities: Southwestern United States and Northwestern Mexico, Salt Lake City: University of Utah Press
1) Designations of North American "DESERTS" based on Forrest Shreve's models:
To Forrest Shreve, the term "desert" denotes, geographically, "a region of low and unevenly distributed rainfall, low humidity, high air temperatures with great daily and seasonal ranges, very high surface soil temperatures, strong wind, soil with low organic content and high content of mineral salts, violent erosional work by water and wind, sporadic flow of streams, and poor development of normal dendritic drainage." (p. 26) Mark Dimmit (cited above) sees a desert as a place where climate is arid -- where water is "freely available only for short periods following rains" (Dimmit, 2000, p. 9). When this is combined with sustained high air temperatures, soil dryness, dry air, wind, and strong insolation, one may well feel (as Shreve put it, p. 18) as if "walking between two great fires." Today this condition of aridity is measured by the relationship of rainfall to "Potential Evapotranspiration" (PET), that is the water loss that would occur through evaporation and transpiration if water were continuously present (Dimmit, op.cit.). Placing a wide pan of water exposed to the weather and measuring the amount which evaporates provides a measure of the ratio of PET to rainfall; in Tucson, Arizona this ratio is 4.3 (4 1/3 times as much PET as rainfall annually, 100" to 12") -- barely a desert, since a ratio of 3.0 is classed as "semi-arid". Yuma, Arizona, on the other hand, fully qualifies as Desert with a ratio of 30, while Africa's interior Sahara Desert overwhelms the Tucsonan imagination with a ratio of 600 (ibid.). But the point is that water restrictions in deserts require their inhabitants to adapt in a variety of ways, in order to survive (and some even to thrive).
The North American Deserts are "Horse Latitude Desert", meaning they are in part products of the natural movement of global air masses which produces rather stable belts of dry air on the western sides of continents at the latitudes around 30 degrees, and in part of the cold ocean currents occuring along the western coasts of the continents at or near this latitude. In part these deserts are also a product of the rain-shadow effects of the mountain ranges which flank them. These arid air masses generate highly variable (and unpredictable) rainfall, high variations in temperature, and "too much sun" (damaging effects of solar radiation). (Dimmit, op. cit., pp. 10-12) All of these conditions place stresses on living things.
Focusing on the biological definition of "deserts", Shreve emphasized the conditions which prevent plants from forming a closed covering, from attaining maximum size, and which require them to reduce their activity levels in response to harsh changes in weather. Instead of competing with each other, plants must compete with their environment -- hence deserts accommodate a certain kind of diversity (unlike, for example, tropical rain forests where all the dominant plants are evergreen broadleaved trees, diverse types of desert plants may develop succulence in response to aridity), desert plant species tend to be low but unequal in stature, tend to form open stands, tend to mix dissimilar forms; hence a scarcity of truly "subordinate plants" - those involved for example in rain forest layering (liana vines, epiphytes, etc). The relative scarcity of plant litter (with what there is rapidly consumed by termites, not much by fungi/bacteria) prevents it from permanently enriching the earth where it falls.
Forrest Shreve spelled out the relationships among the four great North American deserts -- the Great Basin, the Mohave, the Sonoran, and the Chihuahuan -- designating each by a name reflecting where more of its area lies, and defining each as a biological unity based on the distinctive features of its plant life, each part of the boundary being set by the limit of some particular type of vegetation and of a group of species. The boundary of the regions is more sharply defined where topography is abrupt, and more ill defined in level or rolling regions. (pp. 10-11) Here we will focus on the Sonoran Desert, with its "Arizona Uplands" subdivision, comparing and contrasting it with the Chihuahuan Desert. This comparison has importance because of current controversy over the status of our area in relation to these Ecoregions.".
Briefly put, the contrast Shreve drew between the Sonoran Desert and the Chihuahuan Desert is as follows:
Sonoran Desert: mild winters (freezing temps no more than 24 hours); maximum elevation around 3450 feet (1050 meters); biseasonal rainfall (approaching equal quantities of summer & winter rains); vegetation (above 1000') "many small trees and a strong representation of cacti of many tiypes" (p. 33).
Chihuahuan Desert: cold winters (occasional 72 hours of freezing temperatures); elevation mostly above 3500 feet (1070 meters); rainfall 70-80% in summer (mid-june to mid-september); prevailing vegetation is mainly low shrubs. (p. 31)
This contrast is significant in light of continuing controversy over the Ecoregional designation of our part of the San Pedro River Valley.
The controversy: briefly put, disagreements appear over the designation of our Saguaro Juniper area (the vicinity of Cascabel, Arizona) as "Arizona Uplands series of the Sonoran Desert" (our understanding) versus "Transitional zone" (Shreve's apparent designation) versus "Chihuahuan Desert" (designations by the World Wildlife Fund and by Brown & Lowe (1994). The following links examine issues from the perspective of Shreve's designations, followed by that of the World Wildlife Fund. Then, in part (2), we will focus on Brown & Lowe's models in relation to the problem.
The Sonoran Desert: ARIZONA UPLANDS Division
In recent years, Brown et al (1994, 1998) have developed a systematic classification of the "Biotic Communities" of all of North America. Their classification of Biomes of the Southwest builds on the work of Shreve and others, but (like the World Wildlife Fund) designates the Cascabel area as part of "The Chihuahuan Desert":
2) Biomes constituting and contiguous with our Deserts: Brown & Lowe models:
Brown & Lowe (1994), as well as the World Wildlife Fund (see that link), draw substantially different Biome boundaries than those of Forrest Shreve, though their Ecoregion criteria appear to be very similar to his. Here we first present summaries of the Browne and Lowe models for our area (focusing around Cascabel, Arizona), and then we will consider the issues further in relation to our own observations.
Brown & Lowe (1994): Biotic Communities near Cascabel, AZ
Cascabel, AZ: Rainfall Distribution
Cascabel, AZ: Plant Distributions
Cascabel, AZ: the example of Creosotebush