DOCSLIB.ORG

Serruria Villosa | Plantz Africa About:Reader?Url=

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Serruria Villosa | Plantz Africa About:Reader?Url= Serruria villosa | Plantz Africa about:reader?url=http://pza.sanbi.org/serruria-villosa pza.sanbi.org Serruria villosa | Plantz Africa Introduction Serruria villosa is a charming sweetly scented shrublet suited to the wild fynbos garden. Description Description Serruria villosa is an erect shrublet growing 0.3-0.5 m tall and spreading to 0.3 m. It has a neat, multi- stemmed habit, and forms a dense little bush. Leaves are needle-like with very fine hairs and curve upwards. They are 20-40 mm long and have hard black tips. Flowering occurs from late autumn to winter, April to July. Single golden yellow flower heads are produced on the tips of branches. Each yellow flower is topped with a fluffy white perianth. Flower heads measure 20-25 mm across and consist of up to 25 individual flowers. 1 of 5 2016/12/15 01:48 PM Serruria villosa | Plantz Africa about:reader?url=http://pza.sanbi.org/serruria-villosa Hairy brown seeds are produced two months after flowering. Conservation Status Status Serruria villosa is listed as Rare. It has a small distribution range but is protected, as it grows within Table Mountain National Park. Distribution and habitat Distribution description The golden spiderhead is endemic to the Cape Peninsula, meaning it occurs nowhere else. It can be found south of Constantia along mountain flats and slopes at altitudes of between 0-350 m. Soils are sandy and poor in nutrients being derived from Table Mountain Sandstone. This spiderhead is often found growing along rocky slopes in large spread out colonies. In the summer months a strong south- easter wind regularly blows, cooling down hot summer temperatures but at the same time drying out vegetation on the flats. This wind also brings cloud to the mountain tops providing a moist cool atmosphere for plants. Rainfall occurs during the winter months and no frost is experienced. Derivation of name and historical aspects History Serruria was named after Dr James Serrurier who was a professor of botany at Utrecht in the early 18th century. Villosa means hairy and refers to the shaggy white hairs found on the perianth. The Serruria genus contains 55 species. They can be distinguished from other members of the Protea family by their dissected leaves which have cylindrical segments. If the flower heads are solitary they are always on the tips of branches, and if they occur in multiples they are found in the axils of the upper leaves. 2 of 5 2016/12/15 01:48 PM Serruria villosa | Plantz Africa about:reader?url=http://pza.sanbi.org/serruria-villosa Spiderheads occur only in the winter rainfall fynbos region, from the Matsikamma Mountains in the north to the Cape Peninsula and to George in the east. Ecology Ecology Serruria villosa is adapted to and requires fire for survival in its fynbos habitat. Plants grow, flower, produce seed and eventually, after 10-15 years, become old and scrappy. At this stage fynbos is ready to burn. Serruria villosa is killed by fire but seed has been collected and safely stored underground by indigenous ants. Once autumn temperatures start cooling down and the first rains begin, hundreds of new seedlings germinate creating a fresh new population. The main pollinator of Serruria villosa is the honey bee, Apis mellifera. Uses Use There are no known cultural or economic uses for the golden spiderhead. It is not widely used in horticulture as it is a difficult species to grow. Growing Serruria villosa Grow The golden spiderhead is a tricky species to establish in the garden and is best suited to sandy fynbos gardens in the Western Cape. Place in an elevated sunny spot amongst a rockery where the soil is well drained and try to mimic the conditions described in its natural habitat above. Plant out into the garden at the start of the cool rainy season. Do not add any additional nutrients as serrurias are highly sensitive to chemicals and soil enrichment. This includes the average cultivated garden soils that to us look rather poor in nutrients. Water plants regularly through autumn and winter if rainfall is low. Apply a thick layer of mulch or, even 3 of 5 2016/12/15 01:48 PM Serruria villosa | Plantz Africa about:reader?url=http://pza.sanbi.org/serruria-villosa better, have dense companion plantings to keep the soil cool and moist for longer. Suitable companion plants include: small restios and grasses, Leucadendron salignum (small forms), Phylica ericoides , daisy type groundcovers like Ursinia & Syncarpha species, Erica plukenetii and small buchus amongst many others. Spiderheads are not long-lived plants and require replacing every 4-5 years. Tip pruning after flowering will extend the life and encourage a bushier plant. Propagate Serruria villosa from cuttings or seed. Make cuttings from December to March (summer to autumn). Take cuttings 30-50 mm long from the current season's growth. Dip the cuttings into a rooting hormone solution or powder and plant into a medium of 50% polystyrene and 50% finely milled pine bark. Place in a growing house with bottom heat (25ºC) and intermittent mist. Once the roots are well developed, remove from the mist unit and harden off for three weeks. Plant the cuttings into small plugs and grow on until ready to plant into the garden. Plants are not difficult to root provided cuttings are done at the right time of year. The major difficulty is transplanting and growing on where plant losses of over 60% are normal. Sow seed in April when days are warm and nights start to cool down (late summer to autumn). Smoke-treat and dust the seed with a systemic fungicide. Sow the seed into a seed tray into a well-drained medium consisting of 1 part fine bark and 2 parts sand. Firm down and cover with a layer of sifted sand. Place in a position that receives bright natural light and air flow. Germination begins after four weeks. Once two true leaves have appeared, prick the seedlings out into plugs. Place the seedlings in a lightly shaded area with good air circulation and pot up as needed using a sandy, well-drained fynbos mix. When plants are ± 50-100 mm tall, or after one year's growth, they can be planted into the garden. Nipping out the tips of the seedlings will encourage branching and produce a neater shrublet. References Plants of southern Africa : an online checklist. http://posa.sanbi.org Raimondo, D., Von Staden, L., Victor, J.E., Helme, N.A., Turner, R.C., Kamundi, D.A. & Manyama, P.A. (eds) 2009. Red List of South African plants 2009. Strelitzia 25. South African National Biodiversity Institute, Pretoria. Rebelo, A. (Tony). 2001. Proteas: A field guide to the proteas of Southern Africa, edn 2. Fernwood Press & National Botanical Institute, Cape Town. Credits Louise Nurrish Kirstenbosch National Botanical Garden 4 of 5 2016/12/15 01:48 PM Serruria villosa | Plantz Africa about:reader?url=http://pza.sanbi.org/serruria-villosa April 2012 5 of 5 2016/12/15 01:48 PM.
Load more

Recommended publications
  • IV. on the Proteaceć of Jussieu. by Mr. Robert Brown, Lib. LS
    IV. On the Proteacea of Jussieu. By -Mr. Robert Brown, Lib. L.S. Read Jan. 17, 1809. THELinnean system of botany, though confessedly artificial, has not only contributed more than all others to facilitate tlie knowledge of species, but, by constantly directing the attention to those essential parts of the flower on which it is founded, has made us acquainted with more of their important modific-a t’ ions than we probably should have known, had it not been generally adopted, and has thus laid a more solid foundation for the esta- blishment of a natural arrangement, the superior importance of which no one has been inore fully impressed with than Linnzus hiinself. There are still, however, certain circumstances respccting the stamina and pistilla, which appear to iiie to havc been much less attended to than they deserve, both by Linneus and succeeding botanists. What I chiefly allude to is the state of these organs before the expansion of the flower. Tlie utility of ascertaining the internal condition of the ovarium before fecundation will liardly be called in question, now that the immortal worlis of Gxrtner and Jussieu hare demonstrated the necessity of minutely studying the fruits of plants in attempting to arrange tlicin ac- cording to tlic sum of their affinities, as in many cases the true nature of tlie ripc fruit, cspecially witli respect to the placenta- tion of the seeds, can oiily be detcrniined by this mc;~ns. Its importance is indeed expressly inculcated by many l~ot:inists, Tf’llO, 16 Mr. BROWN,on the Proteacee of Jussieu.
    [Show full text]
  • Pathogens Associated with Diseases. of Protea, Leucospermum and Leucadendron Spp
    PATHOGENS ASSOCIATED WITH DISEASES. OF PROTEA, LEUCOSPERMUM AND LEUCADENDRON SPP. Lizeth Swart Thesis presented in partial fulfillment of the requirements for the degree of Master of Science in Agriculture at the University of Stellenbosch Supervisor: Prof. P. W. Crous Decem ber 1999 Stellenbosch University https://scholar.sun.ac.za DECLARATION 1, the undersigned, hereby declare that the work contained in this thesis is my own original work and has not previously in its entirety or in part been submitted at any university for a degree. SIGNATURE: DATE: Stellenbosch University https://scholar.sun.ac.za PATHOGENS ASSOCIATED WITH DISEASES OF PROTEA, LEUCOSPERMUM ANDLEUCADENDRONSPP. SUMMARY The manuscript consists of six chapters that represent research on different diseases and records of new diseases of the Proteaceae world-wide. The fungal descriptions presented in this thesis are not effectively published, and will thus be formally published elsewhere in scientific journals. Chapter one is a review that gives a detailed description of the major fungal pathogens of the genera Protea, Leucospermum and Leucadendron, as reported up to 1996. The pathogens are grouped according to the diseases they cause on roots, leaves, stems and flowers, as well as the canker causing fungi. In chapter two, several new fungi occurring on leaves of Pro tea, Leucospermum, Telopea and Brabejum collected from South Africa, Australia or New Zealand are described. The following fungi are described: Cladophialophora proteae, Coniolhyrium nitidae, Coniothyrium proteae, Coniolhyrium leucospermi,Harknessia leucospermi, Septoria prolearum and Mycosphaerella telopeae spp. nov. Furthermore, two Phylloslicla spp., telopeae and owaniana are also redecribed. The taxonomy of the Eisinoe spp.
    [Show full text]
  • Blushing Bride FAMILY NAME: Proteaceae Species and Cultivars Of
    Plant Profile Botanical Name: Serruria florida Common Name: Blushing Bride FAMILY NAME: Proteaceae Species and cultivars of special interest: Serruria florida hybrids and cvv. such as ‘Sugar ’n’ Spice’, ‘Pretty in Pink’, ‘Super Blush’, ‘Carmen’ Origin: South Africa Availability: May to October Foliage Characteristics: Stem length is 30- 60 cm. They have papery white bracts or floral leaves surrounding the flower. The sugar and spice variety has pink on the white bracts too. 5- 10 stems per bunch. Floral Characteristics: Blushing bride have feathery tufts of white to pinkish flowers. Sugar and spice variety has pink flowers. Special features and characteristics of special interest: It is thought that blushing bride got its name because of its traditional use in Africa as bridal bouquets. The species was near extinction due to being over exploited until conservation measures in the 1960s and 70s kicked in. Botanical name given in honour of James Serrurier, an 18th century professor of Botany at the Unisversity of Utrecht. Maintenance, Cultural requirements and Post Harvest Treatments: Blushing Bride is grown on large bushes in plantations across Australia. They are also grown in South Africa, Israel and the US. Handle blushing brides gently as flowers dry out quickly. They can have floral preservative. It is unknown whether it is Ethylene sensitive. When stored in cool storage keep at at 2- 4 degrees. Strip leaves from water level down. Pest and Diseases: The pedicels are vulnerable to Botrytis infection, which causes them to collapse. They do not suffer from leaf blackening like protea species do but the leaves may turn black if submerged in buckets of solution or if held for too long.
    [Show full text]
  • THE PROTEA ATLAS of Southern Africa
    THE PROTEA ATLAS of southern Africa Anthony G Rebelo (Ed.) South African National Biodiversity Institute, Kirstenbosch THE PROTEA ATLAS of southern Africa Anthony G Rebelo (Ed.) South African National Biodiversity Institute, Pretoria (Title Page) Standard SANBI copyright page (Copyright page) Foreword By whom? CONTENTS ACKNOWLEDGEMENTS .......................................................................................................................... x Sponsors ........................................................................................................................................................ x Organisation .................................................................................................................................................. x Atlassers ........................................................................................................................................................ x 1. INTRODUCTION..................................................................................................................................... x Background ....................................................................................................................................... x Scope (objectives) ............................................................................................................................. x Species............................................................................................................................................... x Geographical
    [Show full text]
  • Anatomical Adaptations in the Leaves of Selected Fynbos Species
    S.Afr.J.Bot., 1994, 60(2): 99 - 107 99 Anatomical adaptations in the leaves of selected fynbos species Al ison M. van der Merwe (nee Summerfield),· J.J.A. van der Walt and Elizabeth M. Marais Department of Botany, University of Stellenbosch, Stellenbosch, 7600 Republic of South Africa Received 23 August 1993; revised 6 December 1993 Fynbos plants experience very harsh conditions during the hot and dry summer months and their leaves are adapt­ ed to reduce the loss of water due to transpiration. The leaves of 46 selected fynbos species of 24 families were examined to determine which anatomical adaptations contribute to the reduced rate of transpiration and subse­ quent reduced water loss. Without exception, all species examined show leaf adaptations typical of xerophytic species. Four typical leaf types are recognized and proposed as models of leaf adaptation: 1. Myrsine type - dorsi ventral or isobilateral leaves; more palisade parenchyma present than spongy parenchyma; tissues contain large amounts of phenolic substances. 2. Meta/asia type - small dorsiventral leaves with involute margins and a single groove in the adaxial surface; mesophyll is usually inverted. 3. Retzia type - dorsi ventral or isobilateral leaves with revolute margins and one or two grooves in the abaxial surface; spongy parenchyma is the main component of the mesophyll. 4. Spatalla type - small centric or near-centric leaves; little or no spongy parenchy­ ma tissue. Fynbos plante ondervind uiterste toestande tydens die warm, droa somermaande, en hulle blare is aangepas om waterverlies tydens transpirasie te beperk. Blare van geselekteerde fynbos-spesies uit 24 families is ondersoek am die bydrae van die verskillende anatomiese aanpassings tot verminderde transpirasietempo en gevolglike water­ verlies, vas te stel.
    [Show full text]
  • CREW Newsletter
    CUSTODIANS OF RARE AND ENDANGERED WILDFLOWERS Cape Holly Ilex mitis hard work entering this information. Margaret has come into the office every day for the last 6 months and Welcome to the first CREW newsletter! At our workshop in diligently entered all Cape Nature’s data on rares collected 2005 we were requested to start a newsletter-it has taken in the 1980’s and 1990’s. Liz Metcalf has also volunteered quite sometime to get the first newsletter going since we in the office and has been fantastic at helping mounting made the mistake of trying to get you all to write in the and accessioning specimens that we receive from all our middle of spring when you were far more interested in being groups. Thank you so much Liz and Margaret. out in the field. Now that spring is well over and the plants are dropping their seeds or starting to hide underground, In the New Year we will be sending out schedules of and we are preparing for the end of the year, we thought general volunteer fieldtrips and ID courses as well as T- we would see what you think of our idea of a newsletter. shirt and cap designs bearing our new logo-below are the Each group has written something for us, and Caitlin has options for you to vote on. Please don’t forget to keep th th stylishly pulled it all together. As this is our first edition we your diary free for our workshop on the 18 & 19 March. ask you please to give us some feedback.
    [Show full text]
  • TC MF Working Document
    Tokai Cecilia Management Framework: 1 INTRODUCTION . .2 1.1 Management ...................................................................... .2 1.2 Alien plant control . .2 1.3 Preparation after harvesting . .3 1.4 Fire management . .3 1.5 Restoration in terrestrial areas .................................................................................................... 5 1.6 Restoration in wetland and riparian areas ........................................................................... .6 1.7 Long-term planning for a restored vegetation network in Tokai . .7 1.8 Replanting . .8 TABLE 1. LIST OF INAPPROPRIATE ALIEN SPECIES AND SUGGESTED METHODS O F CONTROL. .9 TABLE 2. LIST OF LOCAL INDIGENOUS HIGHER PLANT SPECIES FOR TERRESTRIAL (SANDPLAIN & FOOTHILL) AND WETLAND/ RIPARIAN HABITATS IN T HE TOKAI AREA. .1 1 1 Tokai Cecilia Management Framework: 1 Introduction The following guidelines are applicable to restoration and rehabilitation initiatives of the sand-plain Fynbos in the lower Tokai area. The guidelines are based on: 1) Dr. Patricia M. Holmes, 2003. Management and Restoration Plan for an Area of Tokai Plantation East of Orpen Road and between the Two Car Park Areas. 2) Dr. Patricia M. Holmes, 2004. Management Plan for the Extension of the Core Cape Flats Flora Conservation Site in the Lower Tokai Forest. 3) De Villiers et al, 2005. Ecosystem Guidelines for Environmental Assessment in the Western Cape, 4) Forestry Industry Environmental Committee, 2002. Environmental Guidelines for Commercial Forestry Plantations in South Africa. 5) Conservation of Agricultural Resources Act (Act No. 43 of 1983). 6) National Water Act (Act No. 36 of 1998). 1.1 Management It should be appreciated that restoration is a process that does not happen in one step, but rather in several steps of recovery along a course of natural repair, with occasional interventions being required to redirect this trajectory along the desired path.
    [Show full text]
  • Ecology of Proteaceae with Special Reference to the Sydney Region
    951 Ecology of Proteaceae with special reference to the Sydney region P.J. Myerscough, R.J. Whelan and R.A. Bradstock Myerscough, P.J.1, Whelan, R.J.2, and Bradstock, R.A.3 (1Institute of Wildlife Research, School of Biological Sciences (A08), University of Sydney, NSW 2006; 2Department of Biological Sciences, University of Wollongong, NSW 2522; 3Biodiversity Research and Management Division, NSW National Parks & Wildlife Service, PO Box 1967, Hurstville, NSW 1481) Ecology of Proteaceae with special reference to the Sydney region. Cunninghamia 6(4): 951–1015. In Australia, the Proteaceae are a diverse group of plants. They inhabit a wide range of environments, many of which are low in plant resources. They support a wide range of animals and other organisms, and show distinctive patterns of distribution in relation to soils, climate and geological history. These patterns of distribution, relationships with nutrients and other resources, interactions with animals and other organisms and dynamics of populations in Proteaceae are addressed in this review, particularly for the Sydney region. The Sydney region, with its wide range of environments, offers great opportunities for testing general questions in the ecology of the Proteaceae. For instance, its climate is not mediterranean, unlike the Cape region of South Africa, south- western and southern Australia, where much of the research on plants of Proteaceae growing in infertile habitats has been done. The diversity and abundance of Proteaceae vary in the Sydney region inversely with fertility of habitats. In the region’s rainforest there are few Proteaceae and their populations are sparse, whereas in heaths in the region, Proteaceae are often diverse and may dominate the canopy.
    [Show full text]
  • Product:Blushing Bride Botanical Name:Serruria Florida
    ride B Product: Blushing Bride lushing Botanical name: Serruria florida B Quality specifications for Australian wildflowers Product: Product: Botanical name: name: Botanical The common name ‘Blushing Bride’ Serruria is a fast growing, erect shrub Blushing Bride Blushing well suits this delicate member of with soft, fern-like leaves. High yields per the South African Proteaceae. bush are achievable. However, plants are particularly susceptible to Phytophthora Each stem produces between 1 and root rot and need to be grown in well Serruria florida Serruria 8 terminal, nodding flower heads. drained soils. Some growers have Each has delicate, papery, white bracts successfully grown Serruria in bags or flushed with pink, surrounding a central pots of potting mix on raised benches. fluffy mass of delicate florets. Initially Plants will tolerate only light frosts. Plants these florets are white and joined tend to become straggly and need to together, but as the head matures each be pruned to encourage strong, straight floret separates, and the colour changes flowering stems. They generally have a to pink. The unopened flower heads are shorter productive life than proteas. also very attractive. A common failing of Serruria is weak Several South African tales explain stems which cannot support the blooms. the origin of the common name. In one version, a young man gives the Serruria flowers dry out very quickly girl he is courting a flower: the deeper and need to be handled and packed the flower’s shade of pink, the more accordingly. The pedicels are thin, imminent the marriage proposal, and if they dehydrate too much causing the girl to blush.
    [Show full text]
  • Kirstenbosch NBG List of Plants That Provide Food for Honey Bees
    Indigenous South African Plants that Provide Food for Honey Bees Honey bees feed on nectar (carbohydrates) and pollen (protein) from a wide variety of flowering plants. While the honey bee forages for nectar and pollen, it transfers pollen from one flower to another, providing the service of pollination, which allows the plant to reproduce. However, bees don’t pollinate all flowers that they visit. This list is based on observations of bees visiting flowers in Kirstenbosch National Botanical Garden, and on a variety of references, in particular the following: Plant of the Week articles on www.PlantZAfrica.com Johannsmeier, M.F. 2005. Beeplants of the South-Western Cape, Nectar and pollen sources of honeybees (revised and expanded). Plant Protection Research Institute Handbook No. 17. Agricultural Research Council, Plant Protection Research Institute, Pretoria, South Africa This list is primarily Western Cape, but does have application elsewhere. When planting, check with a local nursery for subspecies or varieties that occur locally to prevent inappropriate hybridisations with natural veld species in your vicinity. Annuals Gazania spp. Scabiosa columbaria Arctotis fastuosa Geranium drakensbergensis Scabiosa drakensbergensis Arctotis hirsuta Geranium incanum Scabiosa incisa Arctotis venusta Geranium multisectum Selago corymbosa Carpanthea pomeridiana Geranium sanguineum Selago canescens Ceratotheca triloba (& Helichrysum argyrophyllum Selago villicaulis ‘Purple Turtle’ carpenter bees) Helichrysum cymosum Senecio glastifolius Dimorphotheca
    [Show full text]
  • THE CHALLENGES of BREEDING WILD FLOWER CULTIVARS for USE in COMMERCIAL FLORICULTURE: AFRICAN PROTEACEAE G.M. Littlejohn ARC Fynb
    THE CHALLENGES OF BREEDING WILD FLOWER CULTIVARS FOR USE IN COMMERCIAL FLORICULTURE: AFRICAN PROTEACEAE G.M. Littlejohn ARC Fynbos Private Bag X1 Elsenburg 7607 South Africa [email protected] Keywords: Protea, Leucadendron, Leucospermum, reproduction biology, interspecific hybridization, domestication, ornamental breeding. Abstract The three economically important genera of African Proteaceae provide the background to discussing the phases marked by the extent of control over the genetic material. Six phases in the domestication process are outlined: wild harvesting, basic domestication, clonal selection, interspecific hybridization, complete domestication and control of single genes. Each of these phases are discussed, briefly outlining the plant material use, the levels of control over the genetic quality of the material, the supporting research required to fully exploit the opportunities within each phase and the advantages and limitations. 1. Introduction Growers often breed ornamental plants, sometimes purely by picking out chance variants, in other cases by systematically breeding for specific traits of interest. Breeding ornamentals is in principle not different from breeding any other crop, but the breeding goals usually vary from edible crops, as characters like flower colour, shape, scent are important for their ornamental value. Many ornamentals are ‘new’ introductions, with a short breeding history, and novelty is an important consideration in selection of ornamental crops (Halevy, 2000). The Proteaceae of Southern Africa provide an interesting floriculture product to use to review the challenges that arise from developing an undomesticated plant into an economically viable, cultivated fresh cut flower. The Proteaceae are a family of woody plants, varying from sprawling shrubs to large trees (Rebelo, 1995).
    [Show full text]
  • The Potential of South African Indigenous Plants for the International Cut flower Trade ⁎ E.Y
    Available online at www.sciencedirect.com South African Journal of Botany 77 (2011) 934–946 www.elsevier.com/locate/sajb The potential of South African indigenous plants for the international cut flower trade ⁎ E.Y. Reinten a, J.H. Coetzee b, B.-E. van Wyk c, a Department of Agronomy, Stellenbosch University, Private Bag, Matieland 7606, South Africa b P.O. Box 2086, Dennesig 7601, South Africa c Department of Botany and Plant Biotechnology, University of Johannesburg, P.O. Box 524, Auckland Park 2006, South Africa Abstract A broad review is presented of recent developments in the commercialization of southern Africa indigenous flora for the cut flower trade, in- cluding potted flowers and foliages (“greens”). The botany, horticultural traits and potential for commercialization of several indigenous plants have been reported in several publications. The contribution of species indigenous and/or endemic to southern Africa in the development of cut flower crop plants is widely acknowledged. These include what is known in the trade as gladiolus, freesia, gerbera, ornithogalum, clivia, agapan- thus, strelitzia, plumbago and protea. Despite the wealth of South African flower bulb species, relatively few have become commercially important in the international bulb industry. Trade figures on the international markets also reflect the importance of a few species of southern African origin. The development of new research tools are contributing to the commercialization of South African plants, although propagation, cultivation and post-harvest handling need to be improved. A list of commercially relevant southern African cut flowers (including those used for fresh flowers, dried flowers, foliage and potted flowers) is presented, together with a subjective evaluation of several genera and species with perceived potential for the development of new crops for the florist trade.
    [Show full text]