Look for complete geospatial metadata in this layer's associated xml document available from the download link * Metric Name: SoCal - Index of Large Tree Presence * Tier: 2 * Data Vintage: 06/2020 * Unit Of Measure: Floating point; values represent the percent of nine 10-meter pixels within a 30 meter pixel that contains at least one tree 30” dbh or greater. * Metric Definition and Relevance: Large trees are important to forest managers as they have a greater likelihood of survival from fire, provide sources of seed stock, wildlife habitat, and contribute to other critical processes like carbon storage and nutrient cycling. Large trees are often the focus of management in order to protect existing ones and to foster future ones. In consultation with National Forests and within the California Wildlife Habitat Relationships (CWHR) model, “large trees” in the Southern California region have been designated as greater than 30” dbh (diameter at breast height). The data provided are an estimate of the frequency of trees within a 30 meter pixel expressed as a percentage. * Creation Method: To determine the presence and proportion of large tree in a 30 meter pixel, we used the 10 meter data from the California Forest Observatory (CFO) that contains the height (in meters) of the largest tree in that 10 meter pixel. After converting meters to feet, we then developed an allometric equation to predict tree diameter as a function of tree height in feet. We used Forest Inventory & Analysis (FIA) 2022 plot data from the region, testing three fits of DBH ~ HGT: Saturating (Michelis Menton), Power, or Linear. Saturating was the best according to Akaike information criterion (AIC). We then extracted heights that predicted DBH cut-offs: Block statistics were run to compute the frequency of California Forest Observatory (CFO) 10-meter pixels within a 3x3 window of the number of pixels containing at least one tree larger than the minimum diameter sized tree. For the Southern California region, one metric has been developed: 1. 1) frequency within pixel of greater than 30” dbh in trees * Credits: California Forest Observatory (Salo Sciences), 2020