Helleborus species are differentiated by the way they produce stems above the ground. There are two main groups that differ in their stems and rhizomes. 

The caulescent (stemmed) species grow their rhizomes from the thickened lignified hypocotyl and the bottom part of the stem. The bottom stem branches by growing new shoots from axillary buds. These species produce secondary roots on the primary rots. 

In acaulescent (stemless) species, the primary root dies as the seedling develops into an adult plant. Each year, the plants produce new adventitious roots on the new rhizome side shoots. Old roots are thick, fleshy and often a brownish or blackish colour. This large difference between these two groups' root system explains why only acaulescent species can be propagated by division. 


The rhizome is an underground, usually horizontal branched shoot that grows roots on its underside and, from its terminal buds, develops the parts of the plants that are above the ground.

HGC® Platinum Rose
HGC® Platinum Rose


Botanically speaking, Helleborus flowers are very special. Unlike the blooms of most other flowering plants, hellebore flowers do not consist of petals, but of sepals, which normally actually serve to protect the flower. 

As evolution evolved, the Helleborus petals developed into nectaries (short tubular flower organs). As the name indicates, they produce nectar to attract the few insects that are active at the time of year when hellebores flower. The number of nectaries varies between five and twenty and differs between individual plants. 

The flower is, by and large, non-specialised to facilitate pollination and can consequently be pollinated by a large variety of insect pollinators. 

The sepals are preserved until the seeds have matured. Without detriment to their beauty, they change colour after the flower has been pollinated. 



The stamens are long white filaments with bilocular anthers. Each flower can have up to 150 stamens. Before they mature, the stamens are closed around the carpels, the flowers' female reproductive organs. They do not elongate until a later stage of flower development. 

The number of a flower's carpels varies between three and ten. Helleborus flowers are protogynous. This means that the carpels mature before the stamens (the male reproductive organs) do. This sequence encourages cross-pollination, although all hellebores are actually self-fertile.

The flower colours of hellebores range from green shades, white and yellow, to pink and red hues. Flower scent is unobtrusive, if existent at all. Helleborus odorous  (odorare = Latin for emanating scent, fragrance) is an exception. Flowers of Helleborus liguricus are also reported to have a pleasant scent.

Parts of a Helleborus flower
A = Sepals B = Stamens C = Carpels D= Nectaries

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The fruiting head of Helleborus consists of as many follicles as ovaries that were previously pollinated. After pollination, the nectaries and stamens have accomplished their purpose and fall off as the seeds develop.

The sepals change colour, but remain on the fruiting head until the seeds have matured. The bottom part of the follicles can be grown together, depending on the species. 

As soon as the seeds are ripe, each follicle splits open from top to bottom, releasing the seeds it contains.


Helleborus seeds are attached along the two edges of the open carpels. In most species, the seeds are a black colour with an elongated or kidney shape. As soon as the seed coat has dried, the seeds turn a dull brown or black colour.

The amount of seeds per capsule ranges from ten to twenty. However, there are differences between species. For example, Helleborus vesicarius generally only produces two seeds per follicle.

Helleborus seeds