Forest Ecology. Dan Binkley

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Forest Ecology - Dan Binkley

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temperatures, water regimes, and solar radiation. In turn, the chemical and biological processing of solar energy shape the microenvironmental conditions found in forests. Interception of sunlight by trees not only drives photosynthesis, it leads to evaporation of water from leaves, cooling the leaf and increasing the humidity of the air. Evaporation of water from leaves (transpiration) physically lifts masses of water and nutrients from the soil up to the canopy, and cools leaves heated by sunshine. Energy “fixed” through photosynthesis cascades down a series of chemical reactions, driving the forest's chemistry and biology until all the energy has been dissipated as heat. All the interesting biology and ecology that occur in forests take place within this physical system.

Schematic illustration of the vegetation in the Front Range of the Rocky Mountains in northern Colorado, USA grades from primarily grass/shrub domination at low, dry elevations, through open pine-dominated woodlands, to aspens mixed with a variety of conifers, to forests of spruce and fir and then to tundra (alpine) at the highest elevations.

      (Source: based on a diagram from Laurie Huckaby).

      The patterns depend on direct effects of environmental factors on tree physiology, and also environmental influences on fires, insects, and other forest‐shaping agents.

Schematic illustration of the distributions of major types of forests can be mapped across the world (upper), along with typical rates of aboveground net primary production of forests and other vegetation types.

      Source: maps based on Pan et al. 2013).

      The spatial patterns can also be examined in a functional way, where aboveground net primary production is plotted relative to annual temperatures, and the balance between precipitation and the energy available to evaporate water (wetter conditions occur above the 0 point on the Y‐axis;

      Source: Based on Running et al. 2004.

Schematic illustration of the tallest trees in the world occur in cool, wet locations, and most tall trees are limited to relatively wet areas.

      (Source: upper map, from Pan et al. 2013/Annual reviews,Inc.).

      The diversity of tree species in a tropical forest in Costa Rica dropped by about half with a 1000 m increase in elevation (lower left,

      Source: Data from Veintimilla et al. 2019, photo by Cristian Montes).

      Across eastern China, the number of tree species that co‐occur in 600 m2 (=0.06 ha) plots increases rapidly with temperature, but levels off (and might even decline) on the hottest sites.

      Source: Based on Wang et al. 2009.

      The temperature effect on more complex biochemical reaction rates includes any effects on the breakdown and regeneration rates of enzymes and other proteins. Biological reactions also change as temperatures affect the supplies of

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