FOREST STRUCTURE: Key to function ESRM 304 Why Sample Forest Vegetation? Need information on forest vegetation for making sound decisions What is the recreation potential? What silvicultural treatment will result in best critical habitat enhancement? What silvicultural treatment will result in best growth & regeneration of the trees? What species is / are most suitable for reforestation? What is the value of the timber and the land? Is there sufficient value in timber to offset cost of silvicultural treatments? What is the status of biodiversity on the area? What is the status of the forest as a carbon sink? Why Sample Forest Vegetation? Ultimate objective is to obtain quantifiable information about the resource that allows reasonable decisions on its destiny, management, and use Forest Systems Forests are dynamic, biological systems; changing continuously Trees change in size (growth) Trees die when old, when harvested, and/or when damaged by pathogens (mortality) New trees enter the system (recruitment) Forest Systems Four major stages of stand development o o o o Stand initiation stage Grass-forb Seedling-shrub Stem exclusion stage Sapling-pole Intermediate Understory re-initiation (mature) Old-growth stage Provide different habitats and growth potential Forest Systems Major stages of stand development Forest Systems Stand dynamics vector Visualizing Stand Dynamics Lowland site, St. Edward State Park in 2004 C.E. SVS under LMS v2.0 Developed in Silviculture Lab here in SFR (then CFR) Visualizing Stand Dynamics Lowland site, St. Edward State Park 50 years later, i.e. in 2054 C.E. Forest Structure / Constitution Determined by: Size variability Diameter Height Crown Frequency of occurrence; shape, location of size distribution Age; shape, location of age distribution Spatial arrangement of trees in stand Forest Structure / Constitution Five Typical Stand Structures o o o o o Even-aged stand Two-aged stand Balanced uneven-aged stand Irregular uneven-aged stand Even-aged stratified mixture Represent different management options / potentials Five Typical Stand Constitutions o Even-aged stand Five Typical Stand Constitutions o Balanced uneven-aged stand Five Typical Stand Constitutions o Even-aged stratified mixture Can we see the trees for the forest? Individual tree measurement forms the basis for all forest assessment / inventory Many relationships can be derived from individual tree attributes Species Age Diameter Height Direct measurement, sampling, prediction are all involved Individual Tree Measurement Diameter Most frequently measured diameter is Diameter Breast Height, or, DBH for short DBH is average stem diameter (in inches!) outside bark of the tree measured at breast height above ground level In U.S., breast height is taken to be 4.5 ft. On steep slopes measure on the uphill side of tree Leaning trees require measurement along the bole Trees forking below breast height are treated as two Trees forking above breast height – avoid swells Other stem deformities – move above it Most commonly used measurement device is the D-tape DBH Diameter Measurement Diameter classes Very often expedient to summarize inventory data into size classes based on DBH No matter the size of class used – still measure to nearest 0.1” ! 1-inch classes 2” class (1.6 to 2.5”), 3” class (2.6 to 3.5), … 2-inch classes 4” class (3.1 to 5.0”), 6” class (5.1 to 7.0), … Diameter Measurement Diameter (size) distributions QuickTime™ and a decompressor are needed to see this picture. Diameter Measurement Basal Area Cross sectional area of the tree at breast height – assuming stem circularity – always in square feet! (in U.S.) Area of circle, A = p r 2 Basal area, g = p (DBH/2)2 (1/12)2 = 0.005454 DBH2 Average stand DBH is a useful statistic for management Quadratic Mean DBH (QMD) is the diameter of the tree corresponding to the tree of mean basal area QMD Dg g 0.005454 Individual Tree Measurement Age Trees in temperate zones grow one distinctive layer of wood per year so age is found by counting these annual rings Care is needed to avoid counting ‘false’ rings Tree Age: Total Age: Elapsed time since germination of a seed or time since budding of a sprout or cutting Breast-height age: Elapsed time since tree height exceeded breast height Stand Age: Plantation age: Elapsed time since planting – regardless of seedling age Even-aged vs. Uneven-aged Individual Tree Measurement Tree Height Total height: distance from tree base to tip (volume, biomass, site quality) Height-to-crown: distance from tree base to base of live crown Merchantable height: Height to a minimum top diameter Instruments are called “hypsometers” Direct measurement: Height poles Indirect measurement Similar triangles Trigonometric principles (clinometer) T Height Measurement Tree Height = DT + BD. O DT/OD = tan(TOD), therefore, DT = OD x tan(TOD) DB/OD = – tan(DOB), therefore, DB = – OD x tan(DOB), D B Tree Height = OD x tan(TOD) + [– OD x tan(DOB)], or, Tree Height = OD x [tan(TOD) – tan(DOB)]. Horizontal distance OD is measured with a tape. Clino measures tangents of angles TOD, DOB in percent (100 x tan), so Tree Height = OD x [TOD% / 100 – DOB% / 100], or Tree Height = OD / 100 x [TOD% – DOB%] Slope correction for height measurement D O D’ OD/OD’ = cos(DOD’) OD = OD’ x cos(DOD’) Measure angle DOD’ with clinometer in degrees & plug into height equation: Tree Height = [OD’ x cos(DOD’)] / 100 x [TOD% –DOB%] Individual Tree Measurement Height in relation to age - Site Quality Trees are resource integrators Site Index: The average height of undamaged dominant trees at a reference age Dominant tree height insensitive to crowding Reference, or base, or index age chosen appropriately Species dependent Sometimes dominant trees are unavailable; challenge esp. in mixed stands Requires trees on the site Site Index James King (1966) published site index curves for Douglas-fir in the Pacific Northwest Continuous Forest Inventory The ONLY way to get a complete historical record on forest change is to monitor permanently monumented plots Data from Permanent Sample Plots (PSP’s) is for: o o o Forecasting growth, i.e., developing and testing forest simulation models Studying the effects of cultural practices, insect attacks, weather, climate, etc. Studying how biodiversity, wildlife habitat quality, etc. … change over time Chief purpose is to assess change so forest stewards are alerted to potential need for changing practices or policies Continuous Forest Inventory CFI is generally very low intensity o TSP’s will typically be used to supplement PSP’s CFI plots must be representative of the forest; no special “reserve status” Systematic sampling is often used o Stratified sampling is often messed up by natural disaster, natural changes in species composition Sample size determination is difficult o o o Must be applicable now AND in the future Large enough to be precise for several forest attributes Sampling intensities often range from 0.1% to 1% Continuous Forest Inventory Plot locations are usually determined using a transparent grid with pin pricks on an appropriately scaled grid, then overlain onto a photomosaic or other map of the ownership, then transferred to 9 x 9” photos to take into the field Distance & bearing to plot center is determined from the photo or map from a known permanent location (primary control) to avoid bias Plot center is marked with aluminum stake, re-bar, or PVC pipe Trees on plot are stapled, nailed and / or painted near breast height Continuous Forest Inventory Five percent of all plots (randomly selected) are normally “check-cruised” for accuracy Measurement interval is typically 3 to 10 years Repeat measurement cycle is either annual or periodic o o In a periodic survey, with periodic measurement interval p, EVERY plot is measured every p years In an “annual” survey, 1/p plots will be measured EVERY year Summary Remarks Measurement data collected from trees in a forest system yields information - Forest Structure / Function o o Four major stages of stand development Five major age constitutions Sound data enables sound stand, forest, and landscape management decisions Permanent Sample Plot Layout Large Tree measurement plot Small Tree measurement plot 0.1 acre plot 37.2 foot radius white PVC pipe at plot center ; plot number written on it w/ indelible ink all trees within the plot have aluminum tags 0.025 acre plot 18.6 foot radius same plot center as large plot trees are not tagged perimeter is not marked first tree on plot marked with pink flagging Plot and Tree Enumeration Card Page Date Forest Team Compartment Stand Plot Aspect Slope Elevation Tree Spp DBH Ht. Dist S (o) B. (%) T. (%) C. (%) Add-on of Comment(s) Upper Canopy Surveys Field Trip to St. Edward State Park Tue and Wed (24th & 25th) Depart from behind Bloedel Hall (C-10 parking lot) promptly at 12:30 P.M. Bring warm clothes, sturdy footwear, rain gear, etc.