Cichorieae
Cichorieae, commonly known as the chicory tribe, is a diverse group of flowering plants within the subfamily Cichorioideae of the Asteraceae family, distinguished by their milky white latex and capitula composed exclusively of ligulate florets with five teeth, typically yellow but occasionally white or bluish.[1] The tribe encompasses approximately 105 genera and about 1,800 accepted species, though this number swells to over 7,500 when including microspecies and hybrids from apomictic complexes in genera like Taraxacum (dandelions) and Hieracium (hawkweeds).[2] Plants in Cichorieae exhibit varied growth forms, ranging from annuals and biennials to perennials, subshrubs, and shrubs, with leaves that are alternate, often basal or cauline, and sometimes prickly-margined.[3] Distributed nearly worldwide but predominantly in temperate latitudes of the Northern Hemisphere, Cichorieae species thrive in a variety of habitats, from grasslands and forests to disturbed areas, with centers of diversity in Central and Eastern Asia, the Mediterranean Basin, and southwestern Asia.[4] The tribe's taxonomy has been refined through molecular phylogenies, recognizing 11 subtribes such as Crepidinae, Lactucinae, and Hieraciinae, reflecting extensive parallel evolution and hybridization that challenge traditional classifications.[4] Economically and ecologically significant, Cichorieae includes cultivated species like Lactuca sativa (lettuce) and Cichorium intybus (chicory), as well as widespread weeds such as Taraxacum officinale and Sonchus oleraceus (sowthistle).[3] Despite their morphological uniformity, the tribe's cypselae (fruits) show diagnostic variation, often ribbed, beaked, and crowned with a pappus of bristles or scales, aiding in identification and dispersal.[3]Description
Morphological Characteristics
Members of the Cichorieae tribe are predominantly herbaceous perennials, though annuals, biennials, subshrubs, and shrubs also occur, with a habit that ranges from acaulescent or scapose to caulescent forms.[4] All species produce milky latex in lactiferous canals throughout their subterranean and aerial parts, a trait shared across the Asteraceae family and serving as a key diagnostic feature.[4] This latex is notably present in roots, stems, and leaves, contributing to the tribe's distinctive sap.[5] Leaves in Cichorieae are typically arranged in basal rosettes and/or alternately along stems, often sessile with margins that are entire, dentate, pinnately lobed (frequently runcinate), or prickly, though bases may clasping.[5] Stems, when present, are erect and can be simple, branched, scapiform, or leafy, varying from herbaceous to occasionally lignified in frutescent species.[4] Flower heads, or capitula, are homogamous and composed exclusively of ligulate (ray) florets with zygomorphic, 5-dentate corollas that are typically yellow to orange, though cyanic or white variants exist; these are bisexual and fertile.[5] Exceptions occur in the basal genera Gundelia and Warionia, where florets are tubular rather than ligulate.[4] Capitula are usually arranged in corymbiform or paniculiform synflorescences, sometimes singly on scapiform peduncles.[5] Fruits, known as cypselae, are monomorphic within heads and vary from clavate, columnar, ellipsoid, fusiform, or prismatic shapes, often compressed, ribbed (5–10 ribs), beaked, and smooth to tuberculate or muricate surfaces; they are typically glabrous or hairy.[4] The pappus consists of persistent or falling elements such as fine to coarse barbellate or plumose bristles, awns, scales, or combinations, facilitating wind dispersal.[5] Representative examples include the common dandelion (Taraxacum officinale), featuring deeply lobed basal leaves in a rosette and bright yellow ligules, and chicory (Cichorium intybus), with blue ligules, lanceolate to pinnatifid rosette leaves, and a prominent taproot.[6][7]Habitat and Distribution
The tribe Cichorieae is predominantly distributed in temperate regions of the Holarctic, with extensions into tropical East Africa, Southeast Asia, Australia, New Zealand, South America, and various oceanic islands, reflecting a primarily northern hemisphere focus but with secondary centers in the Americas.[4] The highest diversity occurs in the Eastern Hemisphere, particularly in the Mediterranean Basin, Southwest Asia, Central and Eastern Asia, and parts of Africa, where these plants thrive in moderately humid to semiarid climates; species are concentrated in Eurasia based on regional phylogenetic and floristic analyses.[4] Secondary diversity hotspots include western North America and, to a lesser extent, South America, with overall global species richness exceeding 7,500 when including microspecies and hybrids from apomictic complexes in genera like Taraxacum and Hieracium, encompassing approximately 1,800 accepted species (primarily sexually reproductive) across approximately 105 genera.[1] Cichorieae species inhabit a wide array of open and semi-open environments, including grasslands, meadows, disturbed sites such as roadsides and agricultural fields, rocky slopes, and coastal dunes, often favoring well-drained soils in full sun.[4] Many genera are adapted to montane to alpine zones, steppes, and savannas, with some extending into arid or semiarid conditions, though the tribe is notably absent from humid tropical lowlands and fully aquatic habitats.[4] Morphological features like rosette leaves and scapose stems enhance their adaptability to these exposed, seasonal habitats by minimizing water loss and facilitating wind dispersal.[4] Endemism is particularly pronounced in the Mediterranean Basin, a key hotspot for Cichorieae diversification, where genera like Crepis exhibit high species richness with over 200 species, many restricted to local rocky or coastal microhabitats.[8] Conversely, certain widespread species, such as Taraxacum officinale, have become invasive in temperate zones worldwide, colonizing disturbed grasslands, lawns, and roadsides across North America, Europe, and beyond due to their efficient seed dispersal and apomictic reproduction.[9]Taxonomy
Historical Development
The earliest recognition of the Cichorieae as a distinct group came from Joseph Pitton de Tournefort in 1694, who informally grouped plants with ligulate florets into his "13th class" of the plant kingdom, emphasizing their homogamous capitula and milky latex as key features, and distinguishing subgroups based on the presence or absence of a pappus.[4] This classification laid foundational morphological criteria for later taxonomists, focusing on floral uniformity and sap characteristics that set these plants apart from other Asteraceae.[4] The tribe was formally established as Cichorieae by Jean-Baptiste Lamarck and Alphonse de Candolle in 1806, who subdivided it into four subtribes primarily based on pappus variations, marking a shift toward a more structured natural system within the Compositae.[4] An alternative nomenclature, Lactuceae, was proposed by Henri Cassini in 1819 to highlight the milky sap (latex) as the defining trait, though Cichorieae retained nomenclatural priority.[4] Throughout the 19th century, classifications evolved with George Bentham and Joseph Dalton Hooker incorporating Cichorieae into a broader Lactuceae in their 1873 Genera Plantarum, relying on pappus and receptacle morphology for generic delimitation while acknowledging Cassini's influence on tribal boundaries.[4] In the early 20th century, George Ledyard Stebbins advanced the taxonomy in 1953 by proposing a subtribal framework for Cichorieae, integrating morphology such as pappus, stigma, and pollen structure with distribution patterns and chromosome data, while noting the taxonomic challenges posed by widespread apomixis in the group, which complicated species delineation and evolutionary interpretations.[4] During the pre-molecular era, up to 13 subtribes were recognized by Heinz-Walter Lack in 1991, with classifications heavily dependent on morphological traits like pappus structure to accommodate the tribe's diversity across approximately 62 genera.[4] The transition to a modern perspective occurred with James L. Reveal's 1997 analysis, which reaffirmed Cichorieae's position within the Asteraceae subfamily Cichorioideae and upheld the tribe's name over Lactuceae based on priority rules.[4] Subsequent phylogenetic studies have built on these historical foundations, revising groupings through genetic evidence to refine tribal and subtribal limits.[4]Phylogenetic Framework
The tribe Cichorieae is placed within the subfamily Cichorioideae of the family Asteraceae, with molecular evidence supporting its monophyly as part of a larger clade that includes basal lineages such as Gundelieae and the subtribe Warioniinae, which serve as successive outgroups in phylogenetic reconstructions.[4] These relationships highlight Cichorieae's position as a core element of Cichorioideae, distinct from other subfamilies like Carduoideae, though some early analyses suggested broader affinities.[10] Phylogenetic analyses of Cichorieae have primarily relied on nuclear ribosomal internal transcribed spacer (ITS) regions, alongside chloroplast markers such as trnL-F intergenic spacers and matK genes, which collectively resolve 11 to 13 major clades within the tribe.[4] These molecular datasets indicate a stepwise radiation of subtribes, with apomixis—prevalent in several lineages—introducing reticulate evolution that complicates resolution but does not undermine the tribe's overall monophyly.[11] A seminal study by Kilian et al. (2009) synthesized these markers to propose a framework of subtribal diversification, emphasizing sequential branching from basal to derived groups.[4] Divergence time estimates, calibrated using fossil evidence and relaxed molecular clock methods, place the stem age of Cichorieae at approximately 26.0 million years ago (95% highest posterior density: 23.2–30.3 Ma) and the crown age at 31.7 million years ago (95% HPD: 26.9–38.3 Ma), corresponding to the Oligocene epoch, with subsequent Miocene diversification of core clades.[10] Molecular phylogenetic studies in the 2020s have further refined subtribal relationships and supported the recognition of approximately 100–105 genera across the tribe's clades. Ongoing research, including the description of new genera such as Qineryangia in subtribe Crepidinae in 2024, continues to expand the documented diversity within the tribe.[12] Challenges in reconstructing the phylogeny arise from widespread hybridization and polyploidy, particularly in genera like Hieracium, where apomictic complexes generate extensive genetic variation that obscures branching patterns and requires integrative approaches combining multiple genomic loci.[13] Despite these issues, the framework underscores Cichorieae's evolutionary dynamism within Asteraceae.[14]Classification
Subtribes
The tribe Cichorieae is classified into 11 subtribes, representing the primary units of its internal taxonomy, based on integrated molecular phylogenetic and morphological analyses. These subtribes delineate monophyletic groups supported by nuclear ribosomal ITS and chloroplast matK sequence data from over 400 taxa, resolving key paraphyletic issues and establishing five major clades.[4] Basal subtribes include Warioniinae, which is monospecific with the frutescent genus Warionia comprising three Moroccan endemics characterized by tubular florets and a chromosome base number of x=17, diverging early from the rest of the tribe. Scorzonerinae and Scolyminae branch next; the former features plumose pappus setae and echinolophate pollen with x=6–8, while the latter is distinguished by spiny leaves, receptacular scales or bristles, and an absent or scabrid pappus, with x=10. These early-diverging groups account for a small fraction of the tribe's diversity, primarily distributed in the Mediterranean and adjacent regions.[4] The core of Cichorieae diversity resides in two large clades encompassing over 80% of species. Clade 4 unites Chondrillinae (with beaked achenes, x=5–7), the species-rich Crepidinae (~360 species, diverse pappus types, x=5–8), Hyoseridinae (variable pappus in the Sonchus-Launaea alliance), Hypochaeridinae (plumose or scabrid pappus in the Hypochaeris-Leontodon-Picris core), and Lactucinae (callose achene base, x=8–9, representing the lettuce alliance). Clade 5 includes Cichoriinae (lacking achene beaks, chicory-like habit, x=9), Hieraciinae (x=9, high rates of apomixis in hawkweeds), and Microseridinae (diverse pappus, x=5–9, with a focus on North American radiations). These core subtribes exhibit Old World origins with secondary diversification in the New World, particularly in Microseridinae.[4] Diagnostic features across subtribes include variations in pappus morphology—ranging from setaceous (scabrid, barbellate, or plumose) to paleaceous or absent—and echinolophate pollen types, which provide subtribal synapomorphies, such as the Cichorium intybus type in several groups. Chromosome numbers are predominantly x=9 (ancestral), with polyploidy common in derived subtribes like Hieraciinae, facilitating adaptive radiations. Recent molecular studies continue to refine boundaries, such as merging genera within Crepidinae based on plastid and nuclear data, but the 11-subtribe framework remains robust.[4][15]Genera Diversity
The tribe Cichorieae encompasses 105 recognized genera, an update from earlier estimates of 93, as documented in the Cichorieae Systematics Portal. As of 2024, these genera collectively include approximately 1,800 sexual species across 102 genera, alongside roughly 7,000 apomictic microspecies primarily in three highly diverse genera characterized by facultative or obligate apomixis, for a total of about 7,588 accepted species (including microspecies and hybrids).[1] This apomictic complexity, involving asexual seed production and hybrid speciation, significantly inflates species counts in affected lineages and remains underrepresented in older taxonomic treatments.[1] Geographic diversity patterns highlight Eurasia as the primary center, hosting about 60% of the genera, with extensive radiation in temperate and Mediterranean zones.[4] North America supports around 20 genera, often as disjunct elements shared with Eurasian ancestors through historical migrations across Beringia.[4] The Mediterranean Basin stands out as a key hotspot for endemism, with over 30 genera restricted to this region, reflecting adaptive radiations in fragmented habitats like cliffs and coastal dunes.[16] Overall, the tribe's distribution emphasizes the Northern Hemisphere, with secondary diversification into southern continents via long-distance dispersal. Among the most species-rich genera are Taraxacum (over 2,000 species, predominantly apomictic microspecies in subtribe Cichoriinae) and Hieracium (over 3,000 species, also highly apomictic in subtribe Hieraciinae).[1] Other notable genera include Crepis (approximately 200 species in subtribe Crepidinae) and Sonchus (around 60 sexual species in subtribe Hyoseridinae).[17] Recent taxonomic revisions continue to refine this diversity based on morphological and molecular evidence.[16] The full roster of genera spans alphabetically from Andryala (subtribe Hypochaeridinae, ~15 species, Mediterranean-centered) to Youngia (subtribe Crepidinae, ~50 species, East Asian), encompassing a mix of cosmopolitan and regionally endemic taxa assigned across 11 subtribes.[1] Examples include Cichorium (subtribe Cichoriinae, 6 species, widespread in the Old World Mediterranean), Lactuca (subtribe Lactucinae, ~100 species, with disjunct Eurasian-North American patterns), and Scorzonera (subtribe Scorzonerinae, ~150 species, Eurasian steppes).[18] This classification underscores ongoing refinements to account for apomictic variation and phylogenetic insights, enhancing understanding of the tribe's evolutionary dynamics.[1]| Genus | Approximate Species Count | Subtribe | Key Notes |
|---|---|---|---|
| Taraxacum | 2,000+ (mostly apomictic) | Cichoriinae | Cosmopolitan, high microspecies diversity due to apomixis.[1] |
| Hieracium | 3,000+ (mostly apomictic) | Hieraciinae | Includes hawkweeds; extensive hybridization in temperate zones.[1] |
| Pilosella | 250+ (hybridogenous) | Hieraciinae | Often segregated from Hieracium; Eurasian-North American.[1] |
| Crepis | 200 | Crepidinae | Hawksbeards; disjunct across hemispheres.[17] |
| Sonchus | 60 | Hyoseridinae | Sowthistles; includes weedy and coastal species.[19] |
| Lactuca | 100 | Lactucinae | Includes lettuce relatives; Northern Hemisphere disjunctions.[20] |