Models for Predicting Specific Gravity and Ring Width for Loblolly Pine from Intensively Managed Plantations, and Implications for Wood Utilization

Dahlen, Joseph; Auty, David; Eberhardt, Thomas L.

doi:10.3390/f9060292

Cited by 19 publications

(11 citation statements)

References 48 publications

(82 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…2008; Dahlen et al 2018). The lack of genetic improvement in longleaf pine combined with the rapid growth has also resulted in trees having a high amount of defects .…”

Section: R a F Tmentioning

confidence: 99%

“…Given the rapid growth rate and high defect rate, there are questions about the quality of planted longleaf pine and how it relates to current perceptions of longleaf pine, which are based on slow growing and naturally regenerated longleaf pine. A significant amount of information is available on the wood and fiber quality of planted loblolly pine (Mora et al 2007;Jordan et al 2008;Antony et al 2015;Dahlen et al 2018;Schimleck et al 2018), and to a lesser extent slash pine (Eberhardt et al 2017), however, there is little information available on the wood quality of planted longleaf pine. The wood quality information on planted longleaf pine that does exist (Baldwin and Saucier 1983;Gibson et al 1986;Clark and Schmidtling 1989) was measured prior to the recent restoration efforts and had much higher planting densities (2470 trees ha -1 to 3700 trees ha -1 ) (Baldwin and Saucier 1983;Gibson et al 1986) compared to current practices for establishing planted longleaf pine (1235 trees ha -1 ) (South 2006).…”

Section: R a F Tmentioning

confidence: 99%

“…D r a f t D r a f t natural stands, and thus have a relatively high proportion of corewood (juvenile wood) which has low SG (Burdon et al 2004;Mora et al 2007;Moore and Cown 2017;Dahlen et al 2018).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Models to predict whole-disk specific gravity and moisture content in planted longleaf pine from cutover and old field sites

et al. 2022

Self Cite

View full text Add to dashboard Cite

Efforts to restore longleaf pine across the southeast United States have occurred on two distinct site types, cutover forests and old agricultural fields. We measured wood and bark physical properties of unthinned planted longleaf pine from sixteen stands across Georgia, ages 12 to 25, with eight stands sampled from each site type. Three-hundred and twenty trees were felled and 3,572 disks collected from within the trees. Wood and bark specific gravity (SG), moisture content (MC), and proportion of bark were measured. Non-linear mixed effects models were developed to predict the variation in wood and bark SG with respect to relative height, age, and site type. Cutover sites had higher whole-tree wood SG (0.504 vs 0.455) and bark SG (0.374 vs 0.347) than old agricultural fields. The models explained 50% and 37% of the variability in wood and bark SG, respectively. Moisture content models were fitted as a function of SG for wood (R2 = 0.87) and bark (R2 = 0.71). Bark thickness, dry mass, and green volume were higher for cutover forest sites. Trees sampled included both non-defect and defect-containing trees, however, no significant differences in the wood physical properties were found. These results provide important information for the utilization of plantation longleaf pine.

show abstract

“…2008; Dahlen et al 2018). The lack of genetic improvement in longleaf pine combined with the rapid growth has also resulted in trees having a high amount of defects .…”

Section: R a F Tmentioning

confidence: 99%

Section: R a F Tmentioning

confidence: 99%

See 1 more Smart Citation

Models to predict whole-disk specific gravity and moisture content in planted longleaf pine from cutover and old field sites

et al. 2022

Self Cite

View full text Add to dashboard Cite

show abstract

“…For pulp yield, a three-parameter logistic function [48] was selected. This model form has been successfully used to model latewood specific gravity in loblolly pine [8] and tracheid width measured on macerated samples of loblolly pine [9]:…”

Section: Within-tree Pulp Yield and Lignin Content Model Developmentmentioning

confidence: 99%

“…where a i and a ij represent the nested random effects of the asymptote parameter β0 at the site i and tree j levels, respectively. For lignin content, a variation on the three-parameter logistic function [48] was used which has previously been used to model earlywood specific gravity in loblolly pine [8]:…”

Section: Within-tree Pulp Yield and Lignin Content Model Developmentmentioning

confidence: 99%

Mapping and modeling within-tree variation for loblolly pine pulp yield and lignin content

Schimleck

Antony

Mora³

et al. 2021

SN Appl. Sci.

Self Cite

View full text Add to dashboard Cite

We examined the within-tree variation of pulp yield and lignin content for loblolly pine (Pinus taeda L.) trees aged 13 and 22 years. Radial trends in pulp yield (increase) and lignin (decrease) were consistent with what would be expected for loblolly pine as were changes in properties related to maturation. Maps, based on the average of 18 trees at each age, depicting pulp yield variation within-tree were similar to loblolly pine maps reported for microfibril angle and stiffness, while lignin maps resembled the inverse of those reported for density and related properties. Mixed-effects models for both properties were developed with the base model for pulp yield explaining 64% of the observed variation, with the inclusion of tree height improving the model slightly, whereas models for lignin content explained 44% of the variability. The models could be incorporated into growth and yield prediction systems, or procurement model systems that predict within-tree wood properties based on age and tree size.

show abstract

Wood properties of mature loblolly pine grown in Hawaii, North Carolina, and Mississippi: impacts of climate conditions on specific gravity and chemical composition

Eberhardt,

Kim,

Labbé

et al. 2023

Eur. J. Wood Prod.

View full text Add to dashboard Cite

Higher productivities for loblolly pine (Pinus taeda L.) growing at exotic locations (e.g., Hawaii, Brazil) indicate that the full growth potential of this southern pine species has yet to be reached in plantations across the southeastern United States (US). The higher productivity of Hawaii-grown loblolly pine has been attributed to more favorable climate conditions. To date, physical, anatomical, and chemical property data for loblolly pine wood from exotic locations are scarce. Mid-infrared spectroscopy coupled with multivariate analysis was used to screen for chemical differences between wood samples from Hawaii (HI), North Carolina (NC), and Mississippi (MS). The principal component analysis scores plot showed that the MS samples formed a distinct cluster apart from overlapping clusters for the other two sites. Using standard wet chemistry procedures, we found that the mean lignin content for the MS site (30.1%) was significantly lower than that determined for the NC (34.5%) and HI (33.9%) sites; said lower lignin value was offset by significantly higher glucose and mannose contents. Results on the US mainland were seemingly consistent with the greater formation of latewood at sites with longer growing seasons, and the lower lignin content of latewood relative to earlywood shown for pines. Given the low percent latewood for the HI site (37.2%) relative to both mainland sites (MS, 54.8%; NC, 53.1%), yet similar lignin contents between the NC and HI sites, it appears that the relative lignin value for these exotically-grown loblolly pine trees cannot be solely attributed to the proportion of latewood.

show abstract

Models for Predicting Specific Gravity and Ring Width for Loblolly Pine from Intensively Managed Plantations, and Implications for Wood Utilization

Cited by 19 publications

References 48 publications

Models to predict whole-disk specific gravity and moisture content in planted longleaf pine from cutover and old field sites

Models to predict whole-disk specific gravity and moisture content in planted longleaf pine from cutover and old field sites

Mapping and modeling within-tree variation for loblolly pine pulp yield and lignin content

Wood properties of mature loblolly pine grown in Hawaii, North Carolina, and Mississippi: impacts of climate conditions on specific gravity and chemical composition

Contact Info

Product

Resources

About