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- All Subjects: Sonoran Desert
- Creators: School of Mathematical and Natural Sciences
- Creators: Fischer, Adelheid
The Sonoran Desert in the Southwest region of the United States and the Northwest corner of Mexico is defined by low precipitation rates that are episodal, oscillating between years of higher yields than average and then below average levels. Water is essential for life and in the region, the lack of water proves an obstacle for people that must be faced to live and thrive there. Yet, millions of people live in this desert region and more people are moving currently. As current water resources are straining not only under increasing population but also with higher frequency and lengths of droughts in the region, water is becoming an important topic for future plans in the Sonoran Desert. However, a vast array of plants and animals have lived under these conditions by adapting to the low precipitation rates. By looking at the common flora and fauna of the region, humans may learn how to better live in the Sonoran Desert through biomimicry, the imitation of life. The natural design and processes of life in the Sonoran Desert can be studied to find ways to conserve, store and collect water for human consumption ensuring longevity within the region and beyond as water insecurity increases globally.
Pollution causes many health problems in the modern world and the desert climates struggle with pollution in unique ways. In the Sonoran Desert, the research was conducted with the purpose of expanding the knowledge of the topic in this area. A literature review was conducted based on air, soil and noise pollution in the region. The Sonoran Desert has high levels of carcinogenic elements along with other pollutants due to the main industries of mining, agriculture and manufacturing. Overall, these findings show people in desert climates deal with high levels of pollutants.
Aboveground-belowground relationships between vegetation and its associated soil biotic community play an important role in every terrestrial ecosystem for nutrient cycling and soil health maintenance. Deserts are especially sensitive to change and little is known about Sonoran Desert soil microbiota, while exotic herbaceous species are increasingly invading into the ecosystem with other harmful effects. In many other environments, soil communities have been associated with both plant species and plant functional type. The soil community food web depends on the sustenance brought by vegetation, and different soil community members are adapted to different diets. In this paper, we hypothesized that invasive plants would cause belowground soil communities to have greater abundance and lesser diversity than those under native, more locally established plants. To test this hypothesis, we selected four desert understory plant taxa: one native grass, one native forb, one invasive grass, and one invasive forb. We predicted that the invasive plants would be associated with a greater count of microarthropods per unit mass of soil but lesser microarthropod species diversity. The invasive plants were not statistically associated with a greater count of microarthropods per kilogram of soil nor lesser microarthropod species diversity. There was not a significant difference in abundance in the microarthropod categories between native and invasive plants, so the hypothesis was rejected. However, the invasive Erodium cicutarium was found to harbor high soil mite abundance, which warrants further study, and it is yet to be seen whether soil moisture and proximity to trees played a role in the data. The results of this study should help in generating more informed hypotheses regarding desert aboveground-belowground relationships.