Forest Ecology. Dan Binkley

Forest Ecology - Dan Binkley


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does the vertical Y axis represent?

      3 When X increases, what happens to Y?

      Reading information from graphs becomes easier with practice, and a few points about the graphs in this book might be helpful. Some of the points are obvious, but others will take some thought before insights can be pulled out of graphs.

Schematic illustration of item growth in tropical forests is higher for sites with higher precipitation (left).

      (Source: from data in Taylor et al. 2017).

Schematic illustration of the influence of both factors can be examined together by examining the response of growth to temperature for three precipitation groupings (lower left).

      (Source: from the database compiled by Taylor et al. 2017).

      A second point for the first graph is that the average across all the studies follows a simple trend: a given increase in precipitation gives about the same amount of increase in stem growth, regardless of whether we look at the dry end or the wet end of the spectrum. We might have guessed that a small increase in water for dry sites would have a bigger value for tree growth than the same increase on a site that is already wet, but the available evidence would not support that generalization.

      A third point about the first graph is that the dispersion of points around the line is broad indeed. Two tropical forests that have the same amount of precipitation might easily differ by twofold in growth rates. Even if confidence had been warranted in an average effect of precipitation, the average trend would not give a strong prediction for any single observation: half of all observations are always above average, and half below, no matter how much confidence is warranted in the overall trend.

      The second graph in Figure B shows the growth rates of the same forests, but in relation to the average annual temperature. The confidence band is a bit tighter in this case, and the dispersion of points around the trend is not as large. The probability that random noise would account for the pattern is quite small (less than one in a thousand), so high confidence is warranted in the association between stem growth and temperature. The average trend with temperature accounts for about 23% of all the variation in growth rates among sites (r2 = 0.23). Does higher temperature directly cause higher growth rates of forests? Possibly, but the association between two things does not mean that one causes the other. It's possible that soil nutrient supply is the real driver of growth, and soils in warmer parts of the Tropics have higher nutrient supplies. Confidence in whether one thing actually drives another depends on further evidence (and often direct experimentation).

      The growth of a forest with a given temperature could depend on water supply. The range of sites could be divided into three groups: sites with less than 2000 mm yr−1, 2000–4000 mm yr−1, and more than 4000 mm yr−1 (Figure C). The trends between temperature and stem growth are similar across these three groups at temperatures below 23 °C, but at higher temperatures growth seemed to decline more on drier sites than on wetter sites. This breakdown of the temperature relationship into three precipitation groups increases that amount of variation accounted for in growth to 31%, and very high confidence is warranted that predictions of temperature responses of growth differ among the precipitation groups.

      Separating the sites into precipitation groups actually throws away some information that might be useful. For example, a site with 1950 mm yr−1 precipitation would be tallied in the driest group, and one with 2050 mm yr−1 would be separated into the medium group. Yet these two sites would be more similar to each other than the


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