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Pinus taeda

Pinus taeda, commonly known as loblolly pine, is a medium- to large-sized, evergreen conifer species in the pine family (Pinaceae), native to the southeastern United States, where it serves as one of the most commercially important timber trees due to its rapid growth and versatile wood. The tree typically attains heights of 90–110 feet (27–34 m) and diameters of 24–30 inches (61–76 cm) at maturity, characterized by a straight cylindrical bole, reddish-brown platy bark, needles 6–9 inches (15–23 cm) long in bundles of three, and ovoid cones 3–6 inches (7–15 cm) long with short, stout, triangular spines. Its wood is heavy, strong, and resinous, making it suitable for lumber, pulpwood, plywood, and poles, while the species is widely planted for reforestation and soil stabilization. Native to a range spanning 14 states from southern and eastern southward to , P. taeda thrives in humid, warm-temperate climates with 40–60 inches (1,020–1,520 mm) of annual , mean temperatures of 55–75°F (13–24°C), and 5–10 months frost-free periods. It prefers moderately acidic soils such as Ultisols, , Spodosols, and Alfisols with imperfect drainage, often on the Atlantic and Gulf Coastal Plains, Plateau, and southern at elevations up to 1,200 feet (366 m), though it avoids frequently flooded areas. Ecologically, loblolly pine exhibits rapid juvenile growth with 2–5 height flushes per year, reaching site indices of 60–110 feet (18–34 m) at age 50, and is moderately shade-tolerant in youth but becomes intolerant with age, often dominating early-successional forests after disturbance like fire or . It reproduces as a monoecious with flowering from to and crops every 3–6 years, dispersing 74,000–198,000 viable seeds per that provide critical food for over 20 species, small mammals, deer, and , while the supports endangered like the through cavity nesting in mature stands. Fire-adapted with thick for resistance, it forms pure stands or mixtures with hardwoods and other , contributing to and in southern ecosystems, though it can hybridize with like Pinus echinata and Pinus elliottii.

Taxonomy and Nomenclature

Etymology

The scientific name Pinus taeda derives from Latin roots, with the genus Pinus being the classical term for trees. The specific epithet taeda refers to a resinous or the pitchy used for lighting in , alluding to the species' highly resinous nature suitable for such purposes. formally established the Pinus taeda in his seminal work in 1753, drawing on earlier descriptive accounts of North . The common name "loblolly pine" stems from dialect, where "loblolly" denotes a muddy puddle or mire, reflecting the tree's frequent occurrence in low-lying, swampy depressions. This term traces back to an expression for thick, lumpy , evoking the viscous texture of the wet soils where the species thrives. Early botanical texts from the , including Mark Catesby's Natural History of Carolina, Florida, and the Bahama Islands (1731–1743), provided initial descriptions of the tree under vernacular or names, contributing to its recognition in European scientific literature. Regional variations in common names highlight local observations and uses, such as "oldfield ," which describes the species' rapid colonization of abandoned farmlands as a pioneer tree. Similarly, " " arises from the fragrant, resinous needles that emit an aroma reminiscent of , while "bull " emphasizes the tree's robust, large stature.

Classification

Pinus taeda L., the loblolly pine, is classified within the kingdom Plantae, division , class Pinopsida, order , family , genus Pinus L., subgenus Pinus Spach, section Trifoliae Duhamel, and subsection Australes Loudon. This placement reflects its position among the hard pines, characterized by three needles per fascicle and serotinous cones. The species was formally described by in in 1753, with the Pinus taeda deriving from Latin roots indicating a used for torches. Accepted synonyms include Pinus lutea Walter and Pinus taeda var. alopecuroidea Aiton, while varietal names like Pinus taeda var. robusta Sudw. have been proposed but not widely adopted. Historically, early botanists often confused P. taeda with Pinus palustris Mill. (formerly known as Pinus australis Michx. f.), particularly in swampy habitats, leading to misidentifications and overlapping common names in southeastern North American floras. Phylogenetic analyses based on molecular data, including chloroplast DNA sequences and nuclear markers, position P. taeda firmly within subsection Australes, a monophyletic group of southeastern North American pines. It shows particularly close relations to other yellow pines such as Pinus echinata Mill. (shortleaf pine) and Pinus elliottii Engelm. (slash pine), with evidence of bidirectional introgression between P. taeda and P. echinata inferred from morphological and molecular markers. Post-2000 cladistic studies using multi-locus and genomes have updated infrageneric classifications, placing P. taeda in Taeda alongside congeners like P. echinata and P. rigida Mill., highlighting reticulation and incomplete lineage sorting as key evolutionary processes in this group. The species exhibits a diploid chromosome number of 2n=24, consistent with the genus Pinus.

Morphology and Reproduction

Physical Description

Pinus taeda is a medium to large that typically reaches a mature height of 25 to 35 meters, with a of 0.6 to 1 meter at breast height. The is straight and cylindrical, supporting a crown that transitions from pyramidal in youth to rounded or irregular in maturity. The bark on mature trees is thick, scaly, and composed of reddish-brown plates, providing protection against and environmental stress, while on young trees it is thinner and flaky with an orange-red hue. Needles are , arranged in bundles of three, measuring 12 to 20 in length, dark green with a slight twist, and persist for 2 to 4 years before shedding. Branching occurs in distinct whorls, with lateral buds developing to form ascending or spreading branches that contribute to the tree's overall . Environmental and age-related variations can lead to suppressed growth in positions, resulting in shorter, more slender forms compared to open-grown individuals.

Reproductive Biology

Pinus taeda, commonly known as loblolly pine, is monoecious, bearing both male and female reproductive structures on the same tree. Male cones, which are pollen-producing and catkin-like, form in clusters at the tips of the previous year's branches and measure 2.5–3.8 cm in length, appearing light green to yellow or red depending on the developmental stage. These cones release primarily in , from February 15 to April 10 in its native range, with peak shedding occurring after accumulating approximately 353°C heat units above 13°C since February 1; this timing varies by latitude, typically aligning with March to May in the . Female cones develop on new growth as small, ovoid structures initially 1.0–1.5 cm long and light green to pink or red; they mature over two years into woody, reddish-brown cones 7.5–15.0 cm long with thick scales bearing short, triangular prickles. Pollination in P. taeda is anemophilous, relying on to transfer from male to female cones, with staminate cones maturing slightly before pistillate ones to minimize . grains germinate shortly after landing on the pollination drop of the female cone scales, but growth arrests in midsummer and resumes the following , resulting in a approximately one-year interval between and fertilization. Fertilization occurs in the subsequent to , when sperm nuclei from the unite with the egg cells within the female gametophyte. Following fertilization, development proceeds through distinct stages within the female . The proembryo stage begins immediately at syngamy, with the dividing to form a multicellular structure over 0–8 days. Early embryogeny follows, lasting up to 36 days, during which the suspensor elongates to position the proper into the ; this phase includes , where multiple form from the same fertilization event, but most undergo , leaving a dominant by stages 7–8. Late embryogeny extends to maturity at 62–92 days post-fertilization, with the filling the corrosion cavity and developing storage reserves. Overall maturation requires about 26 months from flowering, with seeds ripening by the second thereafter. Mature seeds are winged for wind dispersal, measuring 6–9 mm in length, with 20–200 seeds per cone and an average weight of around 40,100 per kilogram. Dispersal typically occurs from October to December, with seeds traveling 61–91 m downwind under optimal conditions or 23–30 m otherwise, aided by dry, warm, and windy weather. Seed viability is highest immediately after dispersal, requiring cold stratification at 3–5°C for 30–90 days to break dormancy and promote germination at 18–27°C starting in March; fewer than 0.1% remain viable into the second year.

Distribution and Habitat

Native Range

Pinus taeda, commonly known as loblolly pine, is native to the , with its natural distribution extending from southern southward to and westward to eastern . This range encompasses approximately 15 states, including , , , , , , , , , , , , , , and . It is particularly dominant in forest ecosystems of , , and , where it forms extensive stands in mixed pine-hardwood forests. The historical range of P. taeda reflects post-Pleistocene expansion following the last , when populations likely migrated northward and eastward from southern refugia, such as isolated stands in . Fossil pollen records indicate that ancestors of modern southeastern pines, including those related to P. taeda, were present in Eocene deposits across the region, suggesting a long evolutionary history tied to warming climates after glacial periods. This expansion allowed the species to colonize broader subtropical habitats as ice sheets retreated. Contemporary distribution has been shaped by human activities, including fire suppression, which has enabled P. taeda to encroach into areas previously dominated by more fire-dependent species like , and extensive logging, which creates suitable early-successional habitats for regeneration. Core populations persist in the and physiographic provinces, where the species thrives in humid subtropical climates with annual of 1,000–1,500 mm and elevations generally below 600 m. While it prefers well-drained, acidic soils, its adaptability allows occurrence on a variety of substrates within this range.

Environmental Preferences

Pinus taeda thrives in a range of soil types, including well-drained sands, loams, and clays, such as Ultisols, , Spodosols, and Alfisols, and shows tolerance for poor, acidic conditions with a range of 4.0 to 7.0. It prefers sites with imperfect drainage and thick medium-textured surface layers overlying fine-textured subsoils, but performs poorly on shallow, eroded, or waterlogged soils. The species requires a humid, warm-temperate with annual of 1,020 to 1,520 mm, where spring rainfall is particularly critical for establishment. Mean annual temperatures range from 13°C to 24°C, with tolerance for extremes from -23°C to 38°C and a frost-free period of 180 to 300 days. P. taeda demands full sun for optimal growth, exhibiting moderate only in juveniles, and once established, it displays moderate but remains sensitive to prolonged flooding exceeding two weeks. Nutrient demands are met through associations with ectomycorrhizal fungi, which enhance uptake of essential elements like and , particularly in nutrient-poor soils. P. taeda is adapted to fire-prone environments via thick that provides resistance to low- to moderate-severity fires and facilitates post-fire regeneration on exposed mineral soil.

Ecology and Interactions

Biotic Relationships

Pinus taeda forms ectomycorrhizal associations with various fungi, including Pisolithus tinctorius, which enhance nutrient uptake by extending the root system's reach for phosphorus, nitrogen, and micronutrients like zinc and iron through hyphal networks. These symbioses involve the fungus forming a mantle around roots and a Hartig net between root cells, exchanging fungal access to carbohydrates for improved plant mineral acquisition and drought tolerance. Inoculation with P. tinctorius has been shown to boost seedling survival and growth in nutrient-poor soils, critical for plantation establishment. Pollination in P. taeda is primarily anemophilous, with carrying from male to female cones, while occurs mainly via , typically 60–90 meters downwind during autumn seedfall. Secondary dispersal is facilitated by birds such as the (Sitta pusilla), which seeds in crevices and , aiding distribution beyond initial wind range and promoting germination in suitable microsites. Squirrels also contribute to secondary dispersal by burying seeds, though retrieval rates vary. In mixed forests across its southeastern range, P. taeda co-occurs with understory hardwoods such as oaks (Quercus spp.) and hickories (Carya spp.), which tolerate partial shade and invade openings, forming diverse canopies on well-drained sites. Post-disturbance, such as after logging or fire, P. taeda often dominates pure stands by rapidly colonizing exposed mineral soil, outcompeting slower-growing hardwoods and creating even-aged cohorts. Associated shrubs include flowering dogwood (Cornus florida) and American holly (Ilex opaca), while herbaceous layers feature bluestems (Andropogon spp.) and panicums. P. taeda plays a key role in southeastern forest food webs by providing habitat and forage; mature stands offer cover and nesting sites for gray squirrels (Sciurus carolinensis) and fox squirrels (S. niger), which consume seeds and cones. White-tailed deer (Odocoileus virginianus) utilize plantations for bedding and browse seedlings and twigs, though mature needles are browsed minimally due to high resin content. Livestock grazing is limited in dense stands, with cattle accessing understory forage before canopy closure but posing competition risks to deer populations. Fire ecology favors P. taeda regeneration, as periodic low-intensity burns every 2–3 years reduce hardwood competitors like oaks and sweetgum, exposing mineral soil for seed germination and enhancing seedling vigor. Winter burns effectively control understory saplings up to 5 cm diameter, while summer fires further suppress hardwood resprouting, maintaining pine dominance in fire-adapted ecosystems. These regimes mimic historical disturbance patterns, promoting P. taeda over less fire-tolerant species.

Threats and Conservation

Pinus taeda populations are threatened by several biotic and abiotic factors that impact their health and distribution across the . The southern pine beetle (Dendroctonus frontalis) is a major insect pest, infesting stressed trees in dense stands and causing significant mortality, with outbreaks exacerbated by drought conditions that weaken host trees. Fusiform rust, caused by the Cronartium quercuum f. sp. fusiforme, represents the most economically damaging , forming that girdle stems and kill seedlings and saplings, particularly in intensively managed plantations where incidence can exceed 50% in susceptible families. Emerging fungal diseases, such as brown spot needle blight caused by Lecanosticta acicola, have recently threatened pine plantations, leading to premature needle loss and as of 2024. Habitat fragmentation and loss from and agricultural conversion have diminished natural P. taeda stands, converting former forest areas into developed or cropland landscapes. Fire suppression policies have further compounded these issues by promoting the growth of dense, even-aged forests that accumulate fuels and become highly vulnerable to catastrophic wildfires and pest invasions, deviating from the species' adaptation to frequent low-intensity . Climate change intensifies these pressures through more frequent and intense hurricanes, which inflict severe wind damage on P. taeda stands—often greater than on co-occurring species like —leading to widespread breakage and subsequent vulnerability to secondary pests. Projections indicate a northward shift for the , with models forecasting an overall increase in suitable in the (e.g., 21% under moderate emissions [RCP 4.5] and 32% under high emissions [RCP 8.5] by 2100), though the southern margins may experience increased stress from rising temperatures, prolonged droughts, and shifting precipitation regimes. Despite these challenges, Pinus taeda holds a on the , reflecting its wide distribution and abundance, although ongoing monitoring occurs within broader southern pine ecosystems to track cumulative threats. Restoration initiatives led by the USDA, including reforestation through programs like the Conservation Reserve Program, aim to rehabilitate degraded habitats. Complementary genetic breeding efforts focus on enhancing resistance to fusiform rust and other stressors, with recent 2020s climate modeling guiding selections for and heat tolerance to bolster long-term resilience.

Uses and Cultivation

Commercial Applications

Pinus taeda, commonly known as loblolly , serves as a primary source of timber for , , and utility poles in the . Its wood is valued for its strength and straight grain, making it suitable for structural applications such as framing and sheathing. Plantations typically yield 20-30 m³/ per year over 25-30 year rotations, enabling efficient production cycles that support large-scale harvesting. In the , the species' rapid growth and long fiber length contribute to its prominence as a key feedstock for production. Loblolly pine accounts for a substantial portion of the supply in the region, serving as the for in the southeastern U.S. Its fibers provide excellent strength and absorbency, essential for products like newsprint, , and . Beyond timber and , Pinus taeda yields resins used in adhesives and extraction for solvents and chemicals. The , processed into and , supports industries like paints, varnishes, and production. Emerging applications include biofuels, where residues and densified from loblolly pine constitute about 81% of the southern U.S. supply for wood pellets and sustainable fuels, with advancements in hydrogenated for blends post-2020. The commercial exploitation of Pinus taeda underpins a major in the southern U.S., generating over $30 billion annually through timber, pulp, and related products, while supporting exports of and wood pellets to international markets. Historically, species including loblolly contributed to the 19th-century naval stores for and , but has shifted to intensive modern plantations focused on timber and biofuels since the mid-20th century.

Silvicultural Practices

Silvicultural practices for Pinus taeda (loblolly pine) emphasize intensive management to maximize timber yield in plantations, particularly in the , where the species dominates commercial forestry. Site preparation is a critical initial step, involving mechanical methods such as or disking to expose mineral soil and reduce competing vegetation, often combined with prescribed burning to clear debris and promote seedling establishment. Herbicide applications, including or , are commonly used for pre-planting , either alone or integrated with mechanical treatments, to suppress hardwoods and grasses that compete with young pines for resources. These practices typically occur immediately after harvesting, aiming to create a favorable that can reduce or seedling requirements by up to fivefold compared to unprepared sites. Planting follows site preparation, with bare-root or containerized seedlings inserted at densities of 1,000 to 1,500 per , corresponding to spacing of 2 to 3 meters between trees to balance early volume and individual tree size. Bare-root seedlings, lifted from nurseries after 1 to 2 years, are cost-effective for large-scale operations but require careful handling to minimize root exposure; containerized seedlings offer higher survival rates on challenging sites due to intact root systems. At establishment, fertilization with nitrogen-phosphorus-potassium (NPK) compounds, often at rates of 50-100 kg/ha , boosts early by addressing nutrient deficiencies in sandy or depleted soils, leading to 20-50% increases in and diameter in the first few years. Stand involves pre-commercial at ages 5 to 10 years to reduce density from initial levels to 1,200-1,700 stems per , promoting growth and reducing for light and water. Commercial thinnings may follow at 15-20 years, targeting 40-50% basal area removal to enhance vigor, with final clear-cutting rotations typically spanning 25 to 35 years for or 40-50 years for sawtimber, depending on site quality and market demands. These even-aged strategies, supported by genetic improvements in planting , can 20-30 m³//year on productive sites. Pest management adopts integrated approaches, particularly for bark beetles like the southern pine beetle (Dendroctonus frontalis), which threaten stand health through mass attacks on stressed trees. to maintain lower densities reduces risk by improving tree vigor, while pheromone-baited traps, using attractants such as frontalin combined with host volatiles, monitor and disrupt beetle populations, capturing thousands per trap in high-risk areas to suppress outbreaks. Fungicides and resistant seedlings address pathogens like fusiform rust, but emphasis remains on cultural practices to minimize vulnerabilities. In introduced ranges, P. taeda has been successfully cultivated for timber in , including and , where plantations exceed 1 million hectares and follow similar intensive practices like mechanical site preparation and fertilization, achieving growth rates comparable to or exceeding native ranges on suitable subtropical soils. In , plantings in and support pulp production, with rotations of 25-30 years, though challenges arise from local pathogens such as Sirex noctilio (woodwasp), necessitating vigilant monitoring and biological controls like nematodes to mitigate impacts on stand productivity.

Genetics and Research

Genome Characteristics

The genome of Pinus taeda, commonly known as loblolly pine, is one of the largest among , with an estimated size of approximately 22 gigabase pairs (Gbp), spanning more than seven times the length of the . This massive size is attributed to extensive repetitive DNA sequences, and the is predicted to contain over 50,000 genes, reflecting the of its regulatory and adaptive elements. Sequencing efforts for P. taeda began with a draft assembly released in 2014 by the Pine Genome Initiative, which utilized haploid DNA from a single megagametophyte to overcome the challenges of its heterozygous and repetitive nature, resulting in a 20.1 Gbp assembly with an N50 scaffold size of 66.9 kbp. An improved assembly followed in 2017, incorporating long-read Single Molecule Real Time (SMRT) sequencing technology—specifically PacBio—to enhance contiguity, achieving an N50 contig size of 25.4 kbp and covering 20.6 Gbp, with an N50 scaffold size of 107 kbp, which better resolved repetitive regions and supported gene annotation. These assemblies have laid the foundation for downstream genomic analyses, with ongoing refinements integrating high-throughput sequencing data; as of 2025, the primary reference remains the 2017 assembly (v2.0). Key structural features of the P. taeda include a high proportion of repetitive content, estimated at around 80%, dominated by transposable elements such as long-terminal repeat retrotransposons and miniature inverted-repeat transposable elements, which contribute to genome expansion and evolutionary dynamics. Expanded families are notable, including those involved in —such as synthases (TPS) and enzymes like CYP720B—which underpin production for defense, as well as nucleotide-binding (NLR) genes associated with disease resistance, particularly against fusiform rust. These elements highlight adaptations to environmental stresses in pine species. Comparative genomics with other pines, such as (sugar pine), reveals shared patterns of distribution near genes, informing evolutionary insights into the subgenus Pinus and clade diversification through repeat-mediated rearrangements. These similarities underscore conserved genomic architectures across species, aiding in the identification of orthologous regions for functional studies. The sequenced genome has enabled applications in breeding, particularly , by facilitating the development of high-density arrays like the Pita50K, which integrates capture and whole-genome resequencing data to identify variants for traits such as and , enhancing genomic selection accuracy in loblolly improvement programs. Post-2017 advances, including PacBio long-read integrations, have further supported these efforts by improving quality for precise variant calling.

Inbreeding Effects

Inbreeding depression in Pinus taeda arises from the species' weak mechanism, which permits and subsequent mating among close relatives, resulting in reduced of progeny. Selfing rates in natural conditions can approach 34% in the middle crown, but selfed s experience high mortality, with over 90% aborting by late embryogeny, leading to an overall fitness reduction of approximately 20-40% in surviving progeny through mechanisms like and impaired . Manifestations of include reduced seed set due to widespread embryo abortion, slower height and volume growth (up to 21% and 33% reductions, respectively, due to inbreeding from selfing and full-sib matings), and diminished overall vigor, though effects on specific diseases like fusiform rust incidence are not consistently observed. These symptoms emerge from the expression of deleterious recessive alleles in homozygous states, compromising seedling establishment and juvenile performance. At the genetic level, stems from the loss of heterozygosity at key quantitative trait loci (QTLs) influencing vigor, such as those involved in biosynthesis and function, with effects contributing to up to 13% of observed depression in selfed families. Inbreeding coefficients (F) in intensively managed plantations and advanced generations typically range from 0.1 to 0.3, quantifying the proportion of loci homozygous due to and correlating with progressive declines. Breeding programs mitigate through controlled in multi-clone seed orchards, which reduce selfing rates and maintain , alongside clonal propagation techniques that deploy superior genotypes without further relatedness accumulation. Emerging tools, such as CRISPR-Cas systems adapted for P. taeda protoplasts, offer potential for targeting deleterious loci to alleviate depression; in 2025, a protoplast-based method for CRISPR-Cas ribonucleoprotein delivery was developed for P. taeda, enabling targeted editing. though applications remain in early development as of the 2020s. Population-level studies reveal that inbreeding depression is more severe in fragmented native stands with limited , where elevated selfing exacerbates embryonic and early growth losses, compared to managed forests that promote and exhibit lower effective F values. Meta-analyses across confirm stage-specific variation, with P. taeda showing pronounced embryonic depression in less connected populations but reduced impacts in juvenile stages under cultivation.

Notable Specimens

Record Trees

The tallest recorded specimen of Pinus taeda measures 51.8 meters in height and is located in , , with the measurement taken in 2025. This tree surpasses earlier records and exemplifies the species' potential in environments within its native southeastern U.S. range. The (DBH) champion for , recognized as the state record, has a DBH of approximately 1.55 meters. Such large individuals highlight the tree's capacity for substantial basal growth in suitable sites, though exact ages require dendrochronological verification. Volume estimates for ancient P. taeda specimens reach up to 42 cubic meters, derived from allometric equations applied to measurements of DBH, , and dimensions in trees. These calculations provide insight into the accumulation possible for exceptional individuals, far exceeding typical commercial stands. Dendrochronological analysis has documented maximum ages of up to 325 years for P. taeda, a rarity attributable to the species' evolutionary adaptation to frequent low-intensity fires that limit longevity in most habitats.

Historical Significance

Native American tribes in the , including the , utilized Pinus taeda wood for carving tools, constructing buildings, and building canoes prior to . The tree's , rich in , was applied medicinally as an for wounds, a treatment for sore throats, and a means to draw out splinters when heated. These pre-colonial practices highlight the species' integral role in resource management and healing traditions across its native range. During the , Pinus taeda contributed to naval efforts through the production of naval stores, including and derived from its , which were essential for ships and preserving riggings. Although the "King's pines" designation primarily targeted white pine () for masts in northern colonies, southern pines like loblolly supported the Royal Navy's broader for resin-based products in the . This exploitation laid the groundwork for the species' economic prominence in the American Southeast. The 19th and early 20th centuries saw Pinus taeda drive major industrial booms in extraction and production, transforming the Southern economy as vast stands were harvested to meet demand for naval stores, materials, and pulp. By the late 1800s, these industries dominated the Southeast, with loblolly pine's rapid growth enabling large-scale operations that supported railroads, , and exports. In the 1930s, amid the , the planted millions of acres of loblolly pine across abandoned farmlands in the South, aiding and efforts that reclaimed eroded landscapes from prior agricultural overuse. Culturally, Pinus taeda features in Southern literature as a symbol of the region's forested landscapes, notably in William Faulkner's depictions of Mississippi's pine-dominated , where loblolly stands evoke themes of endurance and transformation. The species was designated Arkansas's official state tree in 1939, reflecting its ecological and economic significance. In contemporary environmental policy, loblolly pine plantations play a key role in strategies, with managed stands capturing significant atmospheric CO₂ to support climate mitigation under initiatives like Climate Smart Forestry.

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