Conversely, resprouted individuals
usually MK-8776 exhibit multiple stems growing from the stump of trees damaged during the prior slash-and-burn event. It is common to find sprouts growing among stump remains of different ages. This observation demonstrates that the BN tree can survive and resprout from successive SC cycles. We attempted to determine the minimum number of times that each resprouted individual was cut. To do so, we observed the sequence of previous growth cycles in the preserved stumps and added one more cycle in cases where the oldest visible stumps had already grown from a multiple-stem individual. Indications from the living stems and from the soil around each tree’s base also furnished information about the number of times the individuals were cut and resprouted. A single resprouted stem could be mistaken for an uncut tree that had grown directly from seed. However, even such individuals preserve evidence in the form of scars, calluses, and thickness typical of trees that suffered fire damage or clear-cutting and then resprouted. We also examined the soil under the base of the trees, where we searched for buried stumps, charcoal,
dark-hued carbonized wood tissue, and depressions resulting from root-structure decomposition. learn more Digging in the soil was the best way to distinguish tiny resprouts from recently emerged seedlings, which preserve their almonds for over a year (Cornejo, 2003). We calculated dispersal distance by georeferencing all BN plants found and all of the conspecific productive adults surrounding the 40 cultivation sites. Pair distances were measured with the near tool in ArcGIS v.9.1 (ESRI, 2005). To compare BN density with
the chances for each site to receive dispersed seeds from the surrounding parental trees, we used the ArcGIS spatial analyst tool to obtain the minimum Euclidean distance from the nearest productive BN trees to each 5-m2 raster cell inside the perimeter of the sites (Parrish et al., 2007). With this approach, the average cell distance calculated for the entire site not only accounted Reverse transcriptase correctly for the distances to all surrounding parent trees but also remained proportional to the areal extent, allowing for direct comparisons among the different sites. The extractivists may choose to preserve their fallows once the sites reach a noticeable BN density, thereby excluding them from further cultivation cycles. To assess this decisive factor, we compared the BN regeneration density with the landholder’s or community’s decision to preserve (or not to preserve) the sites. Another protective practice is aimed not at the fallow site as a whole, but at stretches of it or even at individual BN plants. In this case, the secondary forest is cut and burned as usual, but some BN trees are deliberately spared and remain standing, typically on the perimeter of the future crop or pasture site.