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For other uses, see Catalpa (disambiguation).

Catalpa
Temporal range: Early Oligocene–Recent
Catalpa speciosa flowers, leaf and bark
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Lamiales
Family: Bignoniaceae
Tribe: Catalpeae
Genus: Catalpa
Scopoli
Species

See text

"Beanpods" and leaf details of the northern catalpa

Catalpa (/kə-ˈtæl-pə/, /kə-ˈtɑːl-pə/[1]), commonly also called catawba, is a genus of flowering plants in the family Bignoniaceae, native to warm temperate and subtropical regions of North America, the Caribbean, and East Asia.

Description

[edit]

Most Catalpa are deciduous trees; they typically grow to 12–18 metres (40–60 ft) tall, with branches spreading to a diameter of about 6–12 metres (20–40 ft). They are fast growers and a 10-year-old sapling may stand about 6 metres (20 ft) tall. They have characteristic large, heart-shaped leaves, which in some species are three-lobed. The appearance of the leaves sometimes causes confusion with species such as the unrelated tung tree (Vernicia fordii) and Paulownia tomentosa. Catalpa species bear broad panicles of showy flowers, generally in summer. The flower colour generally is white to yellow. In late summer or autumn the fruit appear; they are siliques about 20–50 centimetres (8–20 in) long, full of small flat seeds, each with two thin wings to aid in wind dispersal.

The large leaves and dense foliage of Catalpa species provide good shelter from rain and wind, making the trees an attractive habitat for many species of birds. They do not present many threats of falling limbs, but the dark-brown fruit husks that they drop in late summer may be a nuisance.

Though Catalpa wood is quite soft, it is popular for turning and for furniture when well seasoned, being attractive, stable and easy to work.[2]

Most catalpas begin flowering after roughly three years, and produce fruit after about five years.[citation needed]

Species

[edit]

The two North American species, Catalpa bignonioides (southern catalpa) and Catalpa speciosa (northern catalpa), have been widely planted outside their natural ranges as ornamental trees for their showy flowers and attractive shape. Northern and southern catalpas are very similar in appearance, but the northern species has slightly larger leaves, flowers, and bean pods. Flowering starts after 275 growing degree days. Catalpa ovata from China, with pale yellow flowers, is also planted outside its natural range for ornamental purposes. This allowed C. bignonioides and C. ovata to hybridize, with the resultant Catalpa × erubescens also becoming a cultivated ornamental.

List of species

[edit]

Sources: (GRIN accepts 8 species)[3] (KEW accepts 8 species)[4]

Evolution

[edit]

The genus likely originated in North America, with the oldest fossils of the genus being seeds from the Early Oligocene (Rupelian) of Oregon, USA. Fossil species are also known from the Late Oligocene (Chattian) of Europe, but they appear to have become extinct in the region by the Miocene epoch. The fossil species Catalpa hispaniolae known from Dominican amber indicates the presence of the genus in the Caribbean by the Miocene. Fossil leaves from China indicate their presence in East Asia by the mid Miocene. The living North American species C. bignonioides and C. speciosa seem to have originated from a back-migration to North America from East Asia, probably during the late Miocene.[5]

Etymology

[edit]

The name derives from the Muscogee name for the tree, "kutuhlpa" meaning "winged head" and is unrelated to the name of the Catawba people.[6][7] The spellings "Catalpa" and "Catalpah" were used by Mark Catesby between 1729 and 1732, and Carl Linnaeus published the tree's name as Bignonia catalpa in 1753.[8][9] Giovanni Antonio Scopoli established the genus Catalpa in 1777.

The bean-like seed pod is the origin of the alternative vernacular names Indian bean tree and cigar tree for Catalpa bignonioides and Catalpa speciosa, respectively.

The catalpa tree in Reading, Berkshire, England

Food source

[edit]

The tree is the sole source of food for the catalpa sphinx moth (Ceratomia catalpae), the leaves being eaten by the caterpillars. When caterpillars are numerous, infested trees may be completely defoliated. Defoliated catalpas produce new leaves readily, but with multiple generations occurring, new foliage may be consumed by subsequent broods. Severe defoliation over several consecutive years can cause death of trees. Because the caterpillars are an excellent live bait for fishing, some dedicated anglers plant catalpa mini-orchards for their own private source of "catawba-worms", particularly in the Southern United States.[10]

Autumn foliage

Other uses

[edit]

Catalpa is also occasionally used as a tonewood in guitars.

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Catalpa

View on Grokipedia
from Grokipedia
Catalpa is a of deciduous trees in the family , comprising about 10 species native primarily to eastern , eastern , and the . These trees are distinguished by their large, heart-shaped leaves that are typically opposite or in whorls, showy terminal panicles of white, trumpet-shaped flowers with yellow or purple markings, and elongated, linear capsules that mature into cigar-like seed pods containing numerous thin, winged seeds. The genus includes two prominent North American species widely cultivated for ornamental purposes: the southern catalpa (), native to the and known for its rapid growth to 30–40 feet with broad, irregular crowns, and the northern catalpa (), which can reach 40–70 feet and features slightly larger leaves and flowers. Asian species, such as and Catalpa bungei, are valued in for their attractive foliage and flowers, while West Indian species like Catalpa longissima contribute to regional . Catalpas thrive in moist, well-drained soils and full sun to partial shade, with hardiness varying by species from USDA zones 4 to 9. Beyond aesthetics, catalpas have practical uses, including as shade trees in landscapes and for their lightweight, rot-resistant wood suitable for fence posts, rails, and cabinetry. The trees also support wildlife, serving as host plants for the catalpa sphinx moth (Ceratomia catalpae) and providing nectar for pollinators, though they can be susceptible to pests like the catalpa midge and diseases such as verticillium wilt.

Taxonomy

Classification

Catalpa is a of flowering placed within the order , family , and Catalpeae. The comprises approximately 10 of trees, distributed primarily in warm temperate and subtropical regions. Phylogenetic analyses confirm Catalpa's within , with close relationships to genera like in Catalpeae, supported by molecular markers from and nuclear DNA. Historically, the genus was initially classified under by Linnaeus in 1753 due to superficial similarities in fruit structure, but it was recognized as distinct by in 1777, primarily based on the presence of only two fertile stamens compared to four in . Subsequent taxonomic revisions, including a comprehensive 2017 study, have refined species delimitations, recognizing eight natural species and two hybrids while affirming the genus's separation from related bignoniaceous taxa. Key diagnostic traits for include opposite (occasionally whorled) leaves, campanulate corollas, and elongate dehiscent capsules containing numerous winged seeds, which distinguish Catalpa from other genera in the tribe.

Etymology

The genus name Catalpa originates from the Muscogee (Creek) word kutuhlpa (or variants such as katałpa), which translates to "winged head" or "head with wings," a reference to the distinctive structure of the tree's flowers, where the corolla appears winged. This Native American term reflects the cultural recognition of the plant's morphology by of the . The name entered European botanical literature in the early through explorations in the American colonies, with naturalist Mark Catesby employing spellings like "Catalpa" and "Catalpah" in his of Carolina, and the Bahama Islands (published between 1729 and 1732). Catesby, who introduced to around 1726, drew from local indigenous encountered during his travels, facilitating the term's adoption into scientific by the mid-1700s. later formalized it as Bignonia catalpa in (1753), though the genus was distinctly established as Catalpa by in 1777. Early records show alternative spellings and misinterpretations, including confusions with "Catawba" or "Cataba," erroneously linked to the Catawba tribe or unrelated plants like the Catawba grape, despite no direct connection. These variations arose from phonetic transcriptions by European explorers and highlight the challenges of adapting indigenous terms into Latinized botanical nomenclature during colonial expansion.

Description

Vegetative characteristics

Catalpa trees are , growing as medium to large specimens that typically attain heights of 10 to 30 meters, with a broad, rounded supported by a straight trunk that may occasionally fork or become crooked in some individuals. The overall habit is irregular and open, often forming an oval or rounded canopy that provides substantial shade. The bark develops as thick, fissured layers that become scaly or ridged with age, typically exhibiting a grayish-brown hue in Catalpa speciosa and reddish-brown scales in C. bignonioides, with longitudinal ridges up to 2–3 cm thick on mature trunks. On younger trees and seedlings, the bark remains thin and susceptible to damage from mechanical impact or herbivory. Leaves emerge or in whorls of three, presenting as simple, cordate to ovate blades that measure 12–30 cm long and 10–20 cm wide, with entire margins, acuminate tips, and cordate bases on long petioles. The upper surface is dark green and glabrous, while the underside bears soft pubescence, giving a lighter, velvety appearance; late-season color shifts to yellow-brown before . Twigs are stout and robust, initially green to reddish-brown, marked by numerous lenticels and distinctive sunken scars arranged in whorls of three, resembling cups or moon craters. Buds lack a terminal example, featuring instead small to moderately sized lateral ones that are imbricate and covered in reddish-brown, , often slightly hairy in C. bignonioides.

Reproductive structures

The reproductive structures of Catalpa species are characteristic of the family, featuring showy inflorescences and persistent fruits adapted for wind dispersal. Inflorescences are large, terminal panicles measuring 15-30 cm in length, bearing numerous flowers that bloom primarily in to . Individual flowers exhibit a campanulate to funnelform corolla, typically 4-7 cm long, that is white to pale yellow with internal purple or yellow streaks and spots in the throat; the corolla is bilabiate with the lower lobe often reflexed. The calyx is inflated and 2-lipped, colored purple-green, while the androecium consists of four didynamous fertile stamens and one staminode; the superior is 2-locular with axillary placentas. Fruits develop as pendulous, linear capsules, slender and cylindric, ranging 15-75 cm in length and 8-10 mm in diameter, which persist on the through winter before splitting longitudinally into two valves. Each capsule contains numerous flat, thin seeds, approximately 3-4 cm long, equipped with membranous wings on both sides to facilitate anemochory.

Distribution and habitat

Native ranges

The genus Catalpa exhibits a classic disjunct distribution pattern, with species native to eastern and eastern , reflecting ancient Tertiary connections between these continents via land bridges and climatic shifts during the Eocene and epochs. In , two primary species occur natively in the southeastern and . Catalpa bignonioides (southern catalpa) is restricted to a small region encompassing southwestern Georgia, southern , south-central and southeastern , and a limited area of northern . Catalpa speciosa (northern catalpa) originates from the central valley basin, including western , northeastern , southeastern , southern , and southern . Asian Catalpa species are concentrated in eastern and central China, with some extending to Korea and . Catalpa ovata is native to forested regions of western China, while Catalpa bungei inhabits northern and central provinces such as , , , , and . Other species, like Catalpa fargesii, occur in central and southern Chinese provinces including , , , , , and . A species, Catalpa longissima, is native to the islands of and , typically in moist habitats. These species typically occupy riparian zones, floodplains, and mixed deciduous forests, where moist, fertile soils support their growth; North American taxa favor alluvial bottomlands and stream banks, while Asian ones often grow on well-drained slopes and edges. Altitudinal ranges vary from near in lowland floodplains to elevations of 700–2,500 meters in mountainous regions of . Some Asian Catalpa species face conservation challenges due to habitat loss and limited distributions; for instance, C. fargesii is considered extremely rare in the wild, known from only a few localities in central and southern China.

Introduced areas

Catalpa species, particularly C. bignonioides and C. speciosa, were introduced to Europe in the 18th century as ornamental trees, with C. bignonioides first brought to England in 1726 by botanist Mark Catesby. By the early 19th century, cultivation had spread across the continent, including to France, Germany, Italy, and Spain. In North America, C. speciosa was extensively planted by European settlers beyond its limited native range in the Mississippi Valley, reaching the Midwest and eastern states through nursery propagation and seed distribution during the 19th century settlement period. Similarly, C. bignonioides expanded northward from the southeastern U.S., becoming naturalized in areas like the Midwest via escaped plantings. Today, Catalpa trees are common in temperate regions worldwide, including much of (e.g., Czechia, Romania, , Turkey, ), , , and parts of , as well as (e.g., Japan, Korea, Taiwan) and additional North American locales. C. bungei, native to , has been introduced to the and for ornamental purposes since the early . These introductions have led to naturalization in urban and rural landscapes, with C. speciosa and C. bignonioides widely planted as street and lawn trees in the U.S. outside their native zones. The primary reasons for these introductions include for shade and aesthetic appeal, along stream banks, and early trials for durable wood used in fence posts and other structures. Cultivation methods, such as , have facilitated their spread from intentional plantings to self-sustaining populations. While generally not highly aggressive, Catalpa exhibits occasional invasiveness, particularly in wetlands and floodplains, where prolific production allows it to outcompete native vegetation in riparian zones. For instance, C. speciosa has been noted for escaping cultivation and establishing in disturbed riverine habitats, prompting removal efforts in some U.S. conservation areas.

Ecology

Pollination and food sources

Catalpa species exhibit a dual pollination strategy, with diurnal and nocturnal pollinators facilitating reproduction. During the day, large bees such as bumblebees (Bombus spp.) and (Xylocopa spp.) are the primary pollinators, drawn to the abundant in the bell-shaped flowers. These bees access nectar through the corolla tube while transferring between flowers, leveraging the yellow and purple markings as nectar guides. At night, various moth species contribute to by feeding on increased and fragrance, ensuring cross-pollination across a broader range of vectors. Flowering in Catalpa typically occurs in to , aligning with peak activity. Individual trees produce blooms in large panicles that last 2 to 3 weeks, providing a concentrated but brief window for . This supports efficient , as the synchronous flowering of multiple trees enhances pollen transfer by mobile pollinators. The flowers offer substantial food rewards, making Catalpa a valuable resource for bees. Nectar yields are high, positioning the genus as a significant honey plant capable of supporting surplus honey production during its bloom period. Pollen serves as a key protein source, collected by foraging bees to provision nests and larvae. Most Catalpa species are self-incompatible, requiring cross-pollination for effective seed set. This gametophytic system prevents self-fertilization, promoting genetic diversity but resulting in low fruit production without compatible pollinators. Observations confirm that fruit set is markedly higher following cross-pollinations compared to self-attempts.

Wildlife interactions

Catalpa species serve as the exclusive host for the larvae of the catalpa sphinx (), a native whose caterpillars feed gregariously on the tree's leaves, often causing substantial defoliation during population outbreaks. Despite this herbivory, the trees typically recover by producing new foliage, as severe defoliation rarely leads to mortality due to the 's resilience and the caterpillars' single annual generation. The leaves contain iridoid glycosides, such as catalposides, which act as chemical defenses toxic to most generalist herbivores but are tolerated by the specialized sphinx larvae, thereby supporting this obligate mutualism. Seed dispersal in Catalpa primarily occurs via , facilitated by the numerous flat, winged seeds released from persistent, elongated pods that split open in late winter or early spring. Catalpa trees face antagonistic interactions from various pests and pathogens, including the catalpa (Contarinia catalpae), whose larvae induce , spots, and damage to buds, branch tips, and seeds. Bagworms (Thyridopteryx ephemeraeformis) also infest Catalpa, with their case-bearing larvae feeding on foliage and potentially causing branch dieback if populations are high. Fungal diseases like , caused by Verticillium dahliae or V. albo-atrum, result in vascular discoloration, wilting, and progressive branch or whole-tree decline, particularly in stressed individuals. These iridoid-based toxins provide partial protection against broader herbivory, limiting damage from non-adapted . In mutualistic relationships, Catalpa associates with arbuscular mycorrhizal fungi (AMF), such as species in the Glomeromycota phylum, forming root symbioses that improve and uptake in nutrient-deficient soils. This association enhances growth, accumulation, and , enabling Catalpa to thrive in marginal habitats where is low.

Cultivation and uses

Cultivation

Catalpa trees thrive in full sun, requiring at least six hours of direct daily to promote vigorous growth and abundant flowering. They prefer moist, well-drained soils with a range of 6.0 to 7.5, though they adapt to a variety of types including clay, , and sandy conditions, provided drainage is adequate. Most species are hardy in USDA zones 4 through 8, with northern catalpa () tolerating colder winters down to zone 4, while southern catalpa () performs best in zones 5 to 9. Propagation of catalpa is most commonly achieved through , which should be sown fresh due to their short viability, though stratification by overwintering in pods improves rates to 50-70%. require no pretreatment beyond if dormant, and can be started indoors or directly sown in spring after the last . cuttings taken in early summer root readily under mist with bottom heat, while onto is used for specific cultivars; root cuttings in winter also succeed for clonal . Once established, catalpa trees need moderate watering, about 1 inch per week during the first , but become drought-tolerant thereafter, though they perform best with consistent moisture to avoid leaf scorch. Pruning is essential in the first few years to develop a strong central leader and remove crossing or weak branches, ideally done in late winter before bud break to shape the tree and enhance structural integrity. Sensitivity to waterlogged soils can lead to , so avoid planting in low-lying areas prone to standing water. Key challenges in cultivating catalpa include the production of messy, persistent seed pods that litter landscapes in fall and winter, potentially requiring selection of low-fruit or sterile cultivars like 'Superb' or 'Nana' to minimize debris. The wood is relatively weak and brittle, making trees susceptible to storm damage and branch breakage, particularly in windy exposures, which necessitates regular structural pruning. While generally pest-resistant, occasional issues like catalpa sphinx moth defoliation may occur but rarely require intervention in healthy specimens.

Human uses

Catalpa trees have been valued ornamentally since the for their large size, providing substantial shade in urban parks, streets, and residential landscapes, as well as their showy clusters of white, trumpet-shaped flowers that add exotic appeal. The wood of Catalpa species, known for its lightweight yet durable and rot-resistant qualities, has been utilized historically for fence posts, rails, and cabinetry, with early settlers and Native Americans employing it in basic construction and tools due to its workability. In , extracts from Catalpa pods, bark, and leaves have been used by various cultures, including Native Americans, as laxatives, anti-inflammatories, and treatments for respiratory issues like and bronchial affections. The smoked the long pods as a substitute for medicinal and ceremonial purposes, earning the tree nicknames like "Indian Tree." Modern research has confirmed properties in Catalpa extracts, supporting some historical applications. Economically, Catalpa plays a minor role in , with plantations historically established for timber production, and its nectar-rich flowers serve as a source for , contributing to localized yields.

Species

Accepted species

The genus Catalpa includes 8 accepted , as recognized by the database, which follows modern taxonomic revisions integrating morphological features (such as leaf shape, indumentum, corolla size, and capsule morphology) and molecular phylogenetic analyses from studies post-2000, including the comprehensive 2017 revision by Olsen and Kirkbride that emphasized diagnostic traits and genetic relationships to delineate natural species boundaries. These are distributed across eastern , eastern , and the , with no accepted in other regions.
  • Catalpa bignonioides Walter (southern catalpa): Native to the from eastern to southern , this features large, heart-shaped leaves up to 20 cm long, showy white flowers with purple spots in panicles, and slender capsules 20–40 cm long; no major synonyms.
  • Catalpa brevipes Urb.: Native to the (, , ), this small is distinguished by short pedicels (under 1 cm), ovate leaves with rough texture, and relatively small capsules; previously treated under broader West Indian taxa but accepted based on distinct floral morphology.
  • Catalpa bungei C.A.Mey. (Manchurian catalpa): Native to central and southern , it has pubescent young leaves and branches, campanulate white to pinkish flowers 4–5 cm long, and capsules up to 40 cm; synonyms include C. fargesii Bureau and C. tibetica Dode, synonymized via molecular and capsule size data.
  • Catalpa longissima (Jacq.) Dum.Cours.: Native to the (, , , ), characterized by exceptionally long capsules exceeding 50 cm, elliptic leaves, and white flowers with faint markings; accepted distinct from continental relatives due to isolated island evolution and fruit elongation.
  • Catalpa macrocarpa (A.Rich.) Ekman: Native to the (, , , ), this species stands out with the largest capsules in the genus (up to 60 cm long and 2 cm wide), broad leaves, and robust habit; no significant synonyms, delimited by fruit dimensions in phylogenetic context.
  • Catalpa ovata G.Don (Japanese or yellow catalpa): Occurring in eastern and possibly naturalized in , it possesses glossy, ovate leaves turning yellow in autumn, yellowish-white flowers, and shorter capsules (15–30 cm); distinguished morphologically from C. bungei by glabrous indumentum.
  • Catalpa purpurea Griseb.: Native to and in the , this small or shrub features white to purple-tinged flowers, elliptic leaves, and slender capsules up to 30 cm; accepted based on distinct corolla coloration and tropical distribution in the revision.
  • Catalpa speciosa Warder ex Teas (northern catalpa): Native to the central United States along the middle Mississippi and lower Ohio River valleys, this has larger corollas (5–7 cm) than C. bignonioides, heart-shaped leaves with wavy margins, and longer capsules (30–50 cm); no major synonyms.

Notable hybrids and cultivars

One notable interspecific hybrid is Catalpa × erubescens, resulting from a cross between the southern catalpa (C. bignonioides) and the yellow catalpa (C. ovata). This hybrid, which originated in in the late , produces a medium-sized tree reaching up to 20 meters in height, featuring showy white flowers with yellow throats and purple spots, along with long, slender seed pods. Among popular cultivars, 'Purpurea' of C. × erubescens is widely recognized for its striking deep foliage that emerges in spring and transitions to by summer, followed by flowers marked with and ; it was introduced before 1886, possibly by T. Meehan's nursery in the United States. For the southern catalpa (C. bignonioides), the 'Aurea' cultivar displays heart-shaped golden- leaves that mature to light -, providing ornamental contrast, while the dwarf 'Nana' forms a compact, shrubby habit reaching 3 to 6 meters tall with dense, rounded growth and minimal flowering or seed production; both were selected in the 19th to early 20th centuries in . These hybrids and cultivars offer enhancements such as compact stature for smaller landscapes, vibrant foliage colors for aesthetic appeal, and reduced seed pod litter compared to wild species, along with improved tolerance to urban conditions and some disease resistance. They are commonly available through nurseries and propagated via for consistent traits, making them favored choices for ornamental in temperate regions.

References

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  72. https://www.gardeningknowhow.com/ornamental/trees/catalpa/catalpa-tree-varieties.htm
  73. https://www.vdberk.com/trees/catalpa-bignonioides-nana/
  74. https://www.treepeony.com/products/catalpa-bignonioides-nana-dwarf-southern-catalpa
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