In the American Southwest, annually emerging cicadas are dep…
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In the Americаn Sоuthwest, аnnuаlly emerging cicadas are dependent upоn the cоttonwood trees in the floodplain. Adult male cicadas perch in the cottonwood trees and chirp to attract females. Females lay their eggs in the branches of the cottonwoods, and, upon hatching, the cicada nymphs drop to the ground, burrow into the soil, feed on the tree roots, and later emerge as adults. Other organisms in the floodplain community prey on the cicadas, as shown in the food web. Arrows extend from the cicada to a yellow billed cuckoo, a sparrow, a lizard, a wasp, a black widow, and a kestrel. An arrow extends from a cottonwood to the cicada. An arrow extends from a lizard to a kestrel. An arrow extends from a sparrow to a kestrel. An arrow extends from a yellow billed cuckoo to a kestrel. Figure 1. Food web in floodplain community Human activity has caused a decrease in the amount of flooding and an increase in the incidence of wildfires in the floodplain. In an investigation into the recent changes in the floodplain ecosystem, researchers monitored the soil temperature, amount of cottonwood ground coverage (i.e., area of the ground that is shaded by leaves), and cicada emergence for a period from mid-June until late July. The results of the investigation are represented in Figure 2 and Figure 3. The horizontal axis is labeled “Cottonwood Ground Coverage, in percent,” and the numbers O through 100, in increments of 20, are indicated. The vertical axis is labelled “Mean June Soil Temperature, in degrees Celsius,” and the numbers 18 through 28, in increments of 2, are indicated. The line of best fit is shown. The line begins at the point with coordinates 2 percent of cottonwood ground coverage comma 25 degrees Celsius and moves directly downward and to the right ending at the point with coordinates go percent cottonwood ground coverage and 19 degrees Celsius. Figure 2. Effect of cottonwood ground coverage on soil temperature The horizontal axis is labeled “Mean June Soil Temperature, in degrees Celsius,’ and the numbers 18 through 28, in increments of 2, are indicated. The vertical axis is labeled “Mean Emergence Date,’ and the dates 6 13 through 7 23, in increments of 5 days, are indicated. The line of best fit is shown. The line begins at the point with coordinates 19 degrees Celsius comma the date 7 21 and moves directly downward and to the right ending at the point with coordinates 26 point 5 degrees Celsius comma the date 6 13. Figure 3. Relationship between soil temperature and cicada emergence date To assess the impact of wildfires on soil temperature and cicada emergence, the researchers compared mean emergence dates for two natural sites where portions had been affected by wildfire. In addition, cicada emergence was monitored at an experimental site where the soil temperature was experimentally maintained. The data are shown in the table. MEAN CICADA EMERGENCE DATES AT SITES AFFECTED BY WILDFIRES OR WITH EXPERIMENTALLY CONTROLLED SOIL TEMPERATURE The table shows Mean cicada emergency dates for Natural Site 1, Natural Site 2, and Experimental Site. For Natural Site 1, the Mean Emergency Date for Unburned is July 8, and for Burned is June 18. For Natural Site 2, the Mean Emergency Date for Unburned is July 15, and for Burned is July 3. For Experimental Site, the Mean Emergency Date for 24 degree Celsius is July 14, and for 27 degree Celsius is July 5. Based on the data, which of the following describes the most likely relationship between wildfires, soil temperature, and the timing of cicada emergence in the same year?
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