1. THE DEMISE OF THE LILIACEAE OR LILY
FAMILY
HOW THE ONCE-DIVERSE FAMILY HAS
BEEN SPLINTERED INTO MANY PIECES
2. The broad definition of the Liliaceae has always been a
source of controversy and the borders of the family
have had many interpretations
• The 1993 Jepson Manual took the broadest
approach possible, not even recognizing the
Agavaceae (agave family) or Amaryllidaceae
(amaryllis family), which were recognized as
distinctive by most botanists
• Now the new manual has taken a
diametrically different view and embraced the
evidence that the family is not a natural unit
and the plants in it belong to unrelated lines
3. The result of this change is that suddenly, there are
many separate families to learn about and identify
• In California, we recognize 10 native families
but in the rest of the world, many others have
also been split off from the original Liliaceae
• Unfortunately, many of these separate
families are not easy to key out or recognize
by easily seen traits, making it harder for the
beginner to grasp the different groups
4. The reasons for these changes are based on many lines
of evidence, many of which are not easily seen
• For example, DNA studies have indicated that
superficially similar looking plants like Nolina and
Yucca are not at all closely related
• Meanwhile genera in some families do not look
superficially similar as, for example, Agave and
Chlorogalum (soap plant), both in the family
Agavaceae
• Other lines of evidence for these changes include
studies in biochemistry, embryo development, seed
and fruit structure, and much more
5. Currently the original California Liliaceae has been split
into families belonging to two different orders
• Orders are groupings of related families, so when
families belong to different orders, it indicates there
is not a close relationship
• For California Liliaceae, some families belong to the
Asparagales (asparagus order), while others have
been retained in the Liliaes (lily order)
• Neither of these orders is easy to define and
therefore beyond the scope of this workshop but
we’ll be looking at the families in each of these
orders to see where the native genera belong
6. We’ll start with the Liliales first, an order that obviously
retains the Liliaceae along with
• Melanthiaceae with Toxicoscordon,
Hastingsia, Leuocrinum, Xerophyllum, Trillium,
and Veratrum
• Smilacaceae with the single genus Smilax
• Nartheciaceae with the single species
Narthecium californicum
• Tofieldiaceae with the single species Triantha
occidentalis
7. We’ll start first with the type family of the order,
Liliaceae. Many members of the family have
• Bulbs or underground rhizomes
• Large, showy flowers
• Often spots or stripes on the petals
• The type genus Lilium (true lilies) features
bulbous plants with whorls or tiers of narrow
leaves on the stem, showy flowers often with
recurved tepals, and versatile anthers on the
stamens
8. Here you see the whorled leaves and showy flowers of
the leopard lily, Lilium pardalinum
9. Lilies like Lilium parvum (alpine lily) have versatile
anthers that pivot on their attachment to the filament
10. The Columbia lily (L. columbianum) shows the spots
often found on lily flowers
11. Here you see the upright seed pods with impressions
made by the coin-shaped seeds in liliums
12. Some lilies like L. washingtonianum don’t have the
usual lily colors of reds, oranges, and yellows
13. Related to the true lilies are the fritillaries (Fritillaria
spp.), differing from lilies by
• Tiny rice grain bulblets often around the
parent bulb (lilies don’t have these)
• Flowers often in unusual, drab colors such as
purples, browns, and greens and
• Basixifed anthers (anthers firmly anchored to
their filaments at the base)
14. The common checker-lily or mission bells (Fritillaria
affinis) shows the checkered pattern typical of many
fritillaria petals
15. Here you see the basixifed anthers of Fritillaria affinis
17. A few fritillarias like the adobe lily (F. pluriflora) have
brightly colored flowers
18. Fritillaria seed pods also differ from lilies in having six
broad wings as seen here
19. Erythronium (fawn- and glacier-lilies) have broader
basal leaves, large flowers borne on short stalks, and
slender bulbs
• The genus is divided into species with mottled leaves
(fawn-lilies) that live in the foothills and
• Solid green leaves on plants that live in the high
mountains, often blooming by melting snow fields
(glacier-lilies)
21. Erythronium helenae (Mt St Helena fawn-lily) is similar
displaying the same basic form and color pattern but is
restricted to the region around Mt.St. Helena
22. A typical glacier-lily is E. grandiflorum found in the high
North Coast Ranges and Klamath Mountains on
northward to Mt Rainier and Glacier National Park
23. The beautiful coastal fawn-lily, E. revolutum, features
pink instead of white or yellow flowers. The genus
name comes from the Greek erythros meaning red
24. One of the showiest genera is Calochortus (Greek for
beautiful grass) containing plants with narrow, strap-
shaped leaves and flowers with sepals and petals
different in shape and often color
• Three subgroups of the genus include
• Globe-tulips with nodding, nearly closed,
globe-shaped flowers
• Star-tulips with open, upright, shallowly bowl-
shaped flowers and
• Mariposa-tulips with tulip-shaped flowers
often elaborately marked inside
30. In addition to these “core” lilies, we also find the
strange, redwood-forest slink pods (Scoliopus bigelovii)
with its striped sepals and mottled leaves and
31. Prosartes (formerly Disporum), the fairy bells, with
leafy stems and bell-shaped flowers hidden under the
leaves near the branch tips. Here is D. smithii
32. Fairy bells are also noted for their fleshy, berry type
fruits
33. The Melianthaceae contains fewer species than the
core lilies in California.
• Its members are rather diverse but generally
have smaller, often white flowers, often in
large clusters
• Genera include Toxicoscordon (formerly
Zigadenus or death-camass), Xerophyllum
tenax (bear grass), Trillium, Hastingsia,
Veratrum (corn-lily), and Stenanthium
occidentale (bronze bells)
34. The death-camasses comprise a genus of bulbous
plants with basal, strap-shaped leaves and racemes or
panicles of white, star-shaped flowers with distinctive
glands. Here is T. fremontii
35. The flowers of T. fremontii (fremont’s star-lily) show the
typical pattern and glands for the genus
36. Bear-grass (Xerophyllum tenax) features large basal
clumps of tough, fibrous leaves and huge panicles of
tiny white flowers. Here are the distinctive leaves
37. And here are the numerous flowers borne above the
leaves
38. The trilliums (Trillium spp.) as well as Pseudotrillium
rivale have three broad, net-veined leaves and a single,
large central flower. Giant trillium features flowers
without a stalk, in several colors.
39. Whereas T. ovatum (wake-robin) has stalked flowers
that open white and fade rose purple
40. The corn-lilies (Veratrum) feature large, conspicuously
pleated leaves and immense panicles of usually white,
starlike flowers. Here are the leaves.
42. Hastingsia is a small genus with clumps of linear basal
leaves and narrow spikelike clusters of tiny white
flowers. This is H. album
43. Finally, bronze bells (Stenanthium occidentale) differs
from the others in having bell-shaped bronze-green
flowers
44. The remaining families of Liliales fall out like this
• Smilacaceae (smilax family) consists of woody vines
with broad leaves and prickly-lined stems. The tiny
green flowers are in umbels
• Tofieldiaceae has equitant, irislike leaves, and spikes
of small white flowers. The inflorescence is covered
in dense sticky glands
• Nartheciaceae also has equitant leaves and racemes
of yellow flowers with furry filaments on the stamens
45. Here is Smilax californica, one of two green briers that
live in the northern part of the state in dry woods.
46. Here are the equitant leaves of Triantha occidentalis
(formerly Tofieldia) found in bogs in the northern part
of the state
48. Narthecium californicum is our only species in the
Nartheciaceae, also living in bogs in the north. Here
you see the furry stamens
49. Next we’ll visit the Asparagales order, a group of
families that are particularly prominent in Europe and
Africa
• The order contains a rather diverse array of
families native to California including
• Agavaceae (agave family) with not only the
usual desert genera such as agave and yucca
but soap plant and camas
• Alliaceae (onion family) with the diverse genus
Allium
• The Themidaceae (brodiaea family) with
several closely related genera
50. And two more families
• Ruscaceae (butcher broom family) with two
different genera, Maianthemum (may flower)
and Nolina (bear grass) and
• Tecophilaeaceae, a mainly southern
hemisphere family with the single species
Odontostomum hartwegii
51. The Agavaceae was once noted for its desert-adapted
plants with tough, succulent leaves, woody stems, and
huge panicles of flowers but
• Currently the family includes the soap plants
(Chlorogalum spp.), camases (Camassia spp.), and
desert-lily (Hesperocallis undulata)
• Racemes or panicles of many flowers, and
• Flowers with often separate (not joined) tepals
• These traits by themselves do not exclude the
possibility of other families
• The family features basal leaves that are sometimes
wavy,
52. Agaves or century plants feature massive, fibrous leaf
rosettes lined with spines and huge panicles of yellow,
tubular flowers that appear only after 10 to 20 years’
growth. Here are the leaves of Agave deserti
53. The massive panicles of tubular yellow flowers only
occur once from a leaf rosette; after flowering the
parent dies but leaves behind “pups” to carry on
54. Here are the flowers of A. deserti, loaded with nectar
and attractive to myriad pollinators
55. The yuccas, also large woody desert plants, differ from
agaves by having narrower leaves lacking side spines
and with panicles of white or purple-tinted bell-shaped
flowers. Here is the Mojave yucca (Yucca schidigera)
56. Note the waxy, bell-shaped creamy flowers of Y.
schidigera
58. Camassia leichtlinii (camas) is one of the non-desert
genera of the Agavaceae, growing in wet meadows in
the mountains. Although its leaves may be confused
with the poisonous Toxicoscordon, the flowers are very
different.
59. The soap plants (Chlorogalum spp.) besides having
saponin-containing bulbs, feature basal rosettes of
wavy leaves (most species)
60. The common soap plant (C. pomeridianum) puts up tall
panicles of small white flowers that open in late
afternoon.
61. One final herbaceous member of Agavaceae is the
desert-lily (Hesperocallis undulata)
62. Like the soap plants, desert-lily has decidedly wavy
leaves
63. The onion family, Alliaceae, was once part of the
Amaryllis family (Amaryllidaceae) but differs by
• Having a superior ovary, not an inferior one
and
• Possessing highly fragrant sulfurous
compounds that impart an onion odor to all
parts of the plants
• The two families have in common a bracted
umbel type inflorescence
• California has the single genus Allium (wild
onions) in a wide range of species
64. Typical onion flowers like A. haematochiton (red-
skinned onion) feature six separate, nearly equal tepals
and six stamens
65. Here you see the colorful flowers of the paper onion (A.
unifolium). Onions are partly identified by their leaf
designs and shapes.
66. Although wild onions are usually small plants from
rocky habitats, the swamp onion (A. validum) grows in
wet mountain meadows
67. The crimped onion, A. crispum, is exeptional in having
flowers with the inners tepals a different shape from
the outer.
68. The brodiaea family, Themidaceae, has usually been
lumped with the amaryllis family or the onion family
but is not considered closely related to either.
• Although Themidaceae features flowers in bracted
umbels on scapes like those other families, it lacks an
onion odor
• Has flowers with a superior ovary,
• Corms instead of bulbs, and
• Tepals that are usually partly joined to form a tube
69. The brodiaea family includes such small genera as
Muilla and Bloomeria, neither of which have a flower
tube but the other genera do
• The so-called brodiaea complex has flowers with tubes and is
quite diverse
• The genus Dichelostemma features headlike umbels of
flowers, (usually) 3 stamens, and colorful appendages behind
the stamens
• The genus Brodiaea features open umbels of waxy flowers, 3
fertile stamens alternating with 3 sterile, petal-like stamens
and
• The genus Triteleia has open umbels of non-waxy flowers with
6 fertile stamens and seldom has appendages
70. The true brodiaeas mostly have blue or purple flowers,
bloom late in the season, and occur in open areas. Here
you see the widespread B. elegans (elegant brodiaea)
71. Another widespread brodiaea is B. coronaria, the
harvest brodiaea. Note the difference in the sterile
stamens (staminodes) between this and elegant
brodiaea
72. Many of the brodiaeas are relatively rare and restricted
to special habitats like the serpentine endemic B.
stellaris found in north coastal counties
73. The dichelostemmas comprise a small genus, mostly
with pink, blue, or purple flowers such as the
widespread blue dicks (D. capitatum)
74. The most unusual species in the brodiaea complex is D.
ida-maia (firecracker flower) noted for its long tubular
red flowers pollinated by hummingbirds
75. The triteleias live in many habitats from seashore to
above timberline and have a great range of flower
colors including
• Yellows
• Whites
• Blues and purples
77. T. hyacinthina (the white brodiaea) is a widespread
white to pale purple species
78. Finally, the pretty face brodiaea (T. ixioides) is a
widespread yellow-flowered species
79. The Tecophilaeaceae is a family found mainly in South
America and Africa with only one California species
• Odontostomum hartwegii, our native, is an
unusual, little noticed plant from lava
outcrops in the northern and central Sierra
foothills
• Like others in the family it features corms and
flowers with recurved tepals and stamens that
open by terminal pores
• It might sometimes be confused with soap
plant out of blossom because of the wavy
leaves
82. Our last family is the Ruscaceae or butcher-broom
family, closely related to the Asparagaceae (asparagus
family) and
• Often with woody stems
• The flowers in ours are small, white, and bell-
to star-shaped
• The two genera look highly dissimilar with
Nolina (bear-grass) a large desert plant and
Maianthemum (may flower) containing small
woodland plants
83. The nolinas superficially resemble yuccas. They are
noted for large basal clumps of narrow, grasslike leaves
on woody stems and huge panicles containing
hundreds of tiny, white, bell-shaped flowers. Here is N.
interrata
84. N. parryi features numerous bell-like flowers subtended
by conspicuous bracts
85. The very different looking may flowers (Maianthemum)
are forest plants with either basal heart-shaped leaves
or leaves along stems, and tiny creamy starlike flowers
• The false lily-of-the-valley (M. dilatatum) has
creeping stems and heart-shaped leaves; its flowers
feature 4 tepals instead of the usual 6
• By contrast the false solomon’s seals (M. stellatum
and M. racemosum, formerly in the genus Smilacina)
have upright stems with ovate leaves and starlike
flowers with 6 petals
• All species have berrylike fruits, while the nolinas
have papery, winged capsules
87. M. stellatum (starry false solomon’s seal) forms loose
colonies and has racemes of starry flowers. It occurs
from coastal forests into the subalpine regions of the
mountains
88. By contrast, M. racemosum (fat false solomon’s seal)
makes clumps with fragrant tiny flowers in panicles