Effects of Stand Density on Top Height Estimation for Ponderosa Pine

Abstract Site index, estimated as a function of dominant-tree height and age, is often used as an expression of site quality. This expression is assumed to be effectively independent of stand density. Observation of dominant height at two different ponderosa pine levels-of-growing-stock studies revealed that top height stability with respect to stand density depends on the definition of the dominant height. Dominant height estimates calculated from a fixed number of trees per acre (ranging from 10 to 60 of the tallest trees per acre) were less affected by density than those calculated from a proportion (with the cutoff ranging from 95th to the 70th percentile) of the largest trees in the stand.

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Yields of Southwestern Pinyon-Juniper Woodlands

Western Journal of Applied Forestry ◽

10.1093/wjaf/3.3.70 ◽

1988 ◽

Vol 3 (3) ◽

pp. 70-74 ◽

Cited By ~ 1

Author(s):

Frederick W. Smith ◽

Thomas Schuler

Keyword(s):

Maximum Yield ◽

Stand Density ◽

Site Index ◽

Average Density ◽

Pinus Edulis ◽

Site Quality ◽

Mixed Species ◽

Growing Stock ◽

Highly Correlated ◽

Utah Juniper

Abstract Site quality and growth-growing stock relations were developed for southwestern woodlands of pinyon (Pinus edulis) and one-seed juniper (Juniperus monosperma) or Utah juniper (J. osteosperma). Anamorphic height-age site index curves for pinyon were developed from a regional sample of 60 woodlands. Site index was unaffected by variation in stocking and was correlated with woodland yield when used in conjunction with density. Pinyon and juniper PAI, when taken separately, were highly correlated with stand density and pinyon site index. Pinyon was twice as productive as juniper at similar stand densities. Pinyon and juniper yields in woodlands of average density and site index were estimated at 0.29 and 0.15 m3ha-1y-1. At high densities pinyon and juniper yields increased to 0.61 and 0.31 m3ha-1y-1 Pinyon and juniper yields appeared independent of the density of the other species in an individual woodland. Maximum yield of dense mixed species woodlands on average sites was 0.78 m3ha-1y-1, and occurred when pinyon constituted 65% of woodland density. West. J. Appl. For. 3(3):70-74, July 1988.

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Dominant-height and site-index equations for ponderosa pine in east-central Arizona

Canadian Journal of Forest Research ◽

10.1139/x91-083 ◽

1991 ◽

Vol 21 (5) ◽

pp. 606-611 ◽

Cited By ~ 3

Author(s):

W. F. Stansfield ◽

J. P. McTague ◽

R. Lacapa

Keyword(s):

Ponderosa Pine ◽

Habitat Type ◽

Prediction Method ◽

Site Index ◽

Site Quality ◽

Predictive Capability ◽

East Central ◽

Dominant Height ◽

Central Arizona ◽

Parameter Prediction

A dominant-height equation for ponderosa pine (Pinusponderosa Laws.) was constructed utilizing a parameter prediction method and a model by J.E. King. The site-index equation was obtained by inverting the dominant-height equation. A method was examined for indirectly obtaining parameter prediction equations. It proved superior to two direct parameter prediction approaches. Other site-quality variables, such as habitat type groups and elevation, were included in the dominant-height and site-index equations and were successful in refining predictive capability.

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Population density influences assessment and application of site index

Canadian Journal of Forest Research ◽

10.1139/x00-079 ◽

2000 ◽

Vol 30 (9) ◽

pp. 1472-1475 ◽

Cited By ~ 30

Author(s):

David W MacFarlane ◽

Edwin J Green ◽

Harold E Burkhart

Keyword(s):

Loblolly Pine ◽

Geographic Location ◽

Stand Density ◽

Tree Height ◽

Significant Negative Correlation ◽

Site Index ◽

Height Growth ◽

Planting Density ◽

Site Quality ◽

Pinus Taeda L

The height growth of dominant trees in plantations is often assumed to be independent of initial planting density. This assumption allows for the use of dominant tree height as an index of site quality. We found that this assumption was false for the seven tallest trees in 184 even-aged loblolly pine (Pinus taeda L.) stands, planted at nine initial planting densities, at four different geographic locations. A strong, highly significant negative correlation was found between dominant height and initial planting density for stands 14 and 16 years of age. This leads to large differences in predicted site index for stands with different initial planting densities planted at the same geographic location. Use of these site indices to predict yield produced large differences in predicted yield (m3/ha) at age 25. These results provide strong evidence for density-dependent height growth, even for dominant trees in the stand, and suggest that site index, used as a measurement of site quality, is confounded with stand density.

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Reevaluating the self-thinning boundary line for ponderosa pine (Pinus ponderosa) forests

Canadian Journal of Forest Research ◽

10.1139/cjfr-2013-0133 ◽

2013 ◽

Vol 43 (10) ◽

pp. 963-971 ◽

Cited By ~ 24

Author(s):

Jianwei Zhang ◽

William W. Oliver ◽

Robert F. Powers

Keyword(s):

Pinus Ponderosa ◽

Ponderosa Pine ◽

Stochastic Frontier ◽

Site Occupancy ◽

Stand Density ◽

Site Index ◽

The Self ◽

Site Quality ◽

Boundary Line ◽

The Face

The self-thinning rule has been used extensively to predict population dynamics under intraspecific and interspecific competition. In forestry, it is an important silvicultural concept for maintaining stand health in the face of climate change and biotic stress, but uncertainty exists because traditional self-thinning limits were set subjectively without regard to site quality. We addressed this by analyzing ponderosa pine (Pinus ponderosa Lawson & C. Lawson) data from 109 research plots measured repeatedly and 59 inventory plots measured once across California. Self-thinning boundaries were fitted to the data with quantile regression and stochastic frontier function (SFF) techniques with and without site index (SI) as a covariate. The models from both methods fitted the data well with either research plots or all plots. Slopes for size-density trajectories were –0.45 with the 0.99 quantile and –0.47 for SFF. Maximum stand density indices (SDI) were 1250 trees per hectare (TPH) with the 0.99 quantile and 1050–1060 TPH with SFF. Mortality occurred when site occupancy from SFF reached 0.75, suggesting a zone of imminent mortality. Curvilinear trends in maximum SDI across SI for both methods indicate that self-thinning varies with site quality. Any management regimes that increase site quality and productivity will increase the self-thinning boundary.

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Comparing site quality indices and productivity in ponderosa pine stands of western Montana

Canadian Journal of Forest Research ◽

10.1139/x88-052 ◽

1988 ◽

Vol 18 (3) ◽

pp. 346-352 ◽

Cited By ~ 41

Author(s):

Scott D. McLeod ◽

Steven W. Running

Keyword(s):

Leaf Area Index ◽

Leaf Area ◽

Ponderosa Pine ◽

Volume Growth ◽

Stand Density ◽

Site Index ◽

Site Quality ◽

Area Index ◽

Water Index ◽

Available Water

Four indices of site quality were compared with volume growth of pure, ideal ponderosa pine (Pinusponderosa Laws.) stands in western Montana. Indices based on quantifying the biophysical factors or physiological processes that control productivity (available water index and a relative index of seasonal photosynthesis from computer simulations) worked as well as those based on tree or stand measurements (site index and leaf area index). The following correlations of mean annual stem volume increment were found: with leaf area index, R2 = 0.93; with available water index, R2 = 0.95; with site index, R2 = 0.98; with gross photosynthesis R2 = 0.96. The available water and photosynthesis indices were also highly correlated to site index (R2 > 0.95). However, the tree-dependent site quality indices varied by stand density. Leaf area index and volume growth increased with stand density while site index decreased. Simulations indicated that depletion of soil water effectively halted transpiration and photosynthesis by midsummer and illustrated that even with adequate water, cold spring and fall temperatures ultimately defined the length of the growing season and hence site quality. We conclude that an ecosystem process model can provide an index to site quality independent of tree or stand measurements.

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A Direct Measure of Stand Density Based on Stand Growth

Forest Science ◽

10.1093/forsci/fxaa038 ◽

2020 ◽

Author(s):

Thomas J Dean ◽

Anthony W D’Amato ◽

Brian J Palik ◽

Mike A Battaglia ◽

Constance A Harrington

Keyword(s):

Ponderosa Pine ◽

Site Occupancy ◽

Stand Density ◽

Site Quality ◽

Direct Measure ◽

Canopy Architecture ◽

Height Increment ◽

Individual Tree ◽

Growing Stock ◽

Volume Increment

Abstract Standardizing gross volume increment on periodic height increment of the dominant trees is a means of minimizing the effects of site quality and age in growth–growing-stock relations; however, volume increment per height increment contains more information than just a normalization method for fitting growth models. This study builds on previous work suggesting that the cumulative sum of the ratios between individual-tree volume increment and height increment may be a direct measure of stand density. We used data from several levels of growing-stock studies for Douglas-fir, ponderosa pine, and red pine to explore this hypothesis. Regression analysis indicated that the sum of the ratios is proportional to(Dqx⋅N), the underlying equation form of Reineke’s stand density index. Stem growth is a function of canopy dynamics, and additional analyses showed that volume added per unit of height growth was also related to canopy architecture, increasing with decreasing live-crown ratio and increasing foliage density. The linkages between growth, canopy architecture, intermediary canopy dynamics, and (Dqx⋅N) support the hypothesis that the sum of the tree ratios between volume increment and height increment is a direct measure of site occupancy due to its association between growth and corresponding resource use. Study Implications Stand density indices are fundamental to managing the development of forest stands to achieve habitat and production goals, and advanced statistical techniques are providing silviculturists with more precise tools to manage density. However, the increased precision is only available with data from self-thinning stands, rare in managed forests. Furthermore, silviculturists must assume that constant fractions of relative stand density are parallel to fitted self-thinning trajectories. The results of this study show that the slope of the stand density gradient can be determined without data from self-thinning stands and the gradient in stand density runs parallel to the trajectory of self-thinning stands.

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A Novel Approach to Modelling Stand-Level Growth of an Even-Aged Forest Using a Volume Productivity Index with Application to New Zealand-Grown Coast Redwood

Forests ◽

10.3390/f12091155 ◽

2021 ◽

Vol 12 (9) ◽

pp. 1155 ◽

Cited By ~ 1

Author(s):

Mark O. Kimberley ◽

Michael S. Watt

Keyword(s):

New Zealand ◽

Growth Model ◽

Growth Models ◽

Stand Density ◽

Site Index ◽

Growth And Yield ◽

Productivity Index ◽

Site Quality ◽

Spatial And Temporal Variation ◽

Coast Redwood

Empirical growth models are widely used to predict the growth and yield of plantation tree species, and the precise estimation of site quality is an important component of these models. The most commonly used proxy for site quality in growth models is Site Index (SI), which describes the mean height of dominant trees at a specified base age. Although SI is widely used, considerable research shows significant site-dependent variation in height for a given volume, with this latter variable more closely reflecting actual site productivity. Using a national dataset, this study develops and describes a stand-level growth and yield model for even-aged New Zealand-grown coast redwood (Sequoia sempervirens). We used a novel modelling approach that quantifies site quality using SI and a volume-based index termed the 300 Index, defined as the volume mean annual increment at age 30 years for a reference regime of 300 stems ha−1. The growth model includes a number of interrelated components. Mean top height is modelled from age and SI using a polymorphic Korf function. A modified anamorphic Korf function is used to describe tree quadratic mean diameter (Dq) as a function of age, stand density, SI and a diameter site index. As the Dq model includes stand density in its formulation, it can predict tree growth for different stand densities and thinning regimes. The mortality model is based on a simple attritional equation improved through incorporation of the Reineke stand density index to account for competition-induced mortality. Using these components, the model precisely estimates stand-level volume. The developed model will be of considerable value to growers for yield projection and regime evaluation. By more robustly describing the site effect, the growth model provides researchers with an improved framework for quantifying and understanding the causes of spatial and temporal variation in plantation productivity.

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Ponderosa Pine Habitat Types as an Indicator of Site Quality in the Dixie National Forest, Utah

Western Journal of Applied Forestry ◽

10.1093/wjaf/4.2.52 ◽

1989 ◽

Vol 4 (2) ◽

pp. 52-54 ◽

Cited By ~ 2

Author(s):

David L. Verbyla ◽

Richard F. Fisher

Keyword(s):

Pinus Ponderosa ◽

Ponderosa Pine ◽

Tree Species ◽

Habitat Type ◽

Site Index ◽

Site Quality ◽

National Forest ◽

Habitat Types ◽

Quercus Gambelii ◽

Generally True

Abstract Forest habitat types have been purported to be useful indicators of site quality. This is generally true for habitat types with different dominant tree species. However, few have studied the site indicator value of habitat types with the same dominant tree species. We measured site index (base age 25) from 172 randomly selected plots within the ponderosa pine (Pinus ponderosa) zone of the Dixie National Forest, Utah. The range of site index within any one habitat type was broad. Poor sites occurred on all five habitat types. However, the best sites occurred only on the Pinus ponderosa/Symphoricarpos oreophilus and Pinus ponderosa/Quercus gambelii habitat types. Therefore, habitat type may be useful in predicting the best sites, but only if other site information is used in addition to habitat type. West. J. Appl. For. 4(2):52-54, April 1989.

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Suitability of two methods of evaluating site quality for sugar maple in central Ontario

The Forestry Chronicle ◽

10.5558/tfc82733-5 ◽

2006 ◽

Vol 82 (5) ◽

pp. 733-744 ◽

Cited By ~ 2

Author(s):

Nicholas J Buda ◽

Jian R Wang

Keyword(s):

Sugar Maple ◽

Quality Evaluation ◽

Growth Models ◽

Site Index ◽

Height Growth ◽

Site Quality ◽

Dominant Height ◽

Index Site ◽

Species Mixture ◽

Stand Conditions

Stem analyses data collected in central Ontario stands were used to develop site index (height and age) and site form (height and diameter) models and curves for sugar maple. The suitability of both methods for evaluating sugar maple site productivity was examined. Two different equation forms were evaluated for both site index and site form models. A common modification of Richard's (1959) equation was most suitable for predicting dominant height at index age (site index) and reference diameter (site form). Potential effects of species mixture on sugar maple site index were examined. We found no significant effects on sugar maple height growth and site index in mixed stand conditions common in the region when compared to pure stands. The potential of site form as an alternative to site index was investigated through correlation analyses with site index and other site variables known to influence sugar maple height growth. Site form was not related to site index, nor any site variables related to sugar maple height growth. It is therefore inadequate for evaluating sugar maple site quality. We recommend height growth models and site index curves developed in this study be used to replace those from other regions currently used in central Ontario. Key words: site index, site form, sugar maple, site quality evaluation, mixedwood, uneven-aged

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Assessing the effect of measurement error in age on dominant height and site index estimates

Canadian Journal of Forest Research ◽

10.1139/x11-054 ◽

2011 ◽

Vol 41 (8) ◽

pp. 1698-1709 ◽

Cited By ~ 2

Author(s):

Chengcai Ni ◽

Gordon Nigh

Keyword(s):

Measurement Error ◽

Pinus Ponderosa ◽

Ponderosa Pine ◽

Site Index ◽

Stand Age ◽

Initial Value ◽

Dominant Height ◽

Projection Length ◽

Age Model ◽

Projection Error

Stand age is often hard to measure accurately. Measurement error in age affects height estimates when height is projected from one age to another age. In this study, our objective was to derive an estimator for the variance of the component of projection error associated with the error in age. To evaluate the estimator, a simulation approach was employed and the results showed that the estimator worked well in most cases. When the variance of the error in age increases and the projection is forward, however, the estimator might not work as well as in other cases. Another objective was to examine how the error in age behaved under different height–age models and to what extent it affected height and site index estimates. The effect of the error in age depended on its magnitude, the height–age model, initial value of dominant height and age, and projection length. It was also shown that the effect was sometimes negligible, but it could be considerable in other cases. Data from 80 ponderosa pine ( Pinus ponderosa Dougl. ex Laws.) trees in British Columbia, Canada, were used in an illustrative example.

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