LIST OF FIGURES (CONT.)


 VOLUME 2


Figure Page

Chapter 6

 6.1 Energy Systems Diagram Showing Characteristics of Reclaimed
 Forested Wetlands, Highlighting Interactions Between Both
 Herbaceous and Woody Vines and Other Components within
 the W etland Systems Boundary............................................................ 6-13
 6.2 Locator Map of the Central Florida Phosphate District. Each Study Site
 Is Located According to Phosphate Mine Location (FIPR 1997)........... 6-16
 6.3 Chronosequence Field Layout and Sampling Design. (a) Elongated
 Quadrats Were Placed Perpendicular to the Hydrologic Gradient;
 (b) A Square Meter Quadrat Was Placed Randomly Within Each
 10 Meter Segment of the Elongated Quadrat. Each Elongated
 Quadrat Was Extended Three Meters Wide on Each Side to Sample
 Vine Cover on Trees ............................................................................. 6-21
 6.4 The Volume Used Within the Square Meter Quadrats Begins at the
 Forest Floor and Extends Beyond the Tree Canopy............................. 6-22
 6.5 Energy Systems Diagram Showing Successional Changes in Herbaceous
 Vine Biomass, Woody Vine Biomass, and Tree Biomass for
 Constructed Forested W etlands........................................................... 6-30
 6.6 Energy Systems Diagram Showing Each Coefficient Assigned in the
 Model of the Role of Vines in Forested Wetland Succession ............... 6-34
 6.7 Vine Distribution Over Time on the Chronosequence Sites. (a) Mean
 Number of Rooted Vines; (b) Mean Dry Weight Vine Biomass; and
 (c) Mean Vine Basal Diameter at Each Site ......................................... 6-39
 6.8 Vine Presence on the Chronosequence Sites. (a) Vine Species Richness
 Increases with Increasing Site Age; (b) Vines Representing 18
 Genera Were Identified throughout the Nine Chronosequence Sites..... 6-41
 6.9 Presence of Vines in Relation to Understory Herbaceous Cover on the
 Chronosequence Sites. (a) Rooted Vines; (b) Vine Biomass .............. 6-45
 6.10 Percent of Quadrats Containing Vine Increases in Relation to Increasing
 Site Age Along the Chronosequence of Sites. It Is Possible that the
 Total Frequency of Herbaceous Vines and Woody Vines Exceed 100%
 Because Both Herbaceous and Woody Vines Could Be Recorded in
 the Sam e Quadrat.................................................................................... 6-46
 6.11 The Percent Cover of Vines on Trees. When a Tree Has Some Amount
 of Vine Biomass Growing on It, (a) Shows the Affinity for Each
 Host Tree Species To Be Covered in Vines, and (b) Shows the
 Probability of Vine Cover for a Tree at a Given Age. Data Were
 Not Available for Sink Branch ............................................................. 6-49
 6.12 Mean DBH for Trees Hosting Vines and Trees Not Hosting Vines............ 6-52