DOCSLIB.ORG

Rapanea Melanophloeos | Plantz Africa About:Reader?Url=

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Rapanea Melanophloeos | Plantz Africa About:Reader?Url= Rapanea melanophloeos | Plantz Africa about:reader?url=http://pza.sanbi.org/rapanea-melanophloeos pza.sanbi.org Rapanea melanophloeos | Plantz Africa Introduction The graceful Cape beech is a hardy tree for a large, coastal garden setting, and for windy areas. Description Description This is an evergreen tree, 4-18 m high. The mature leaves are leathery and dull, dark green, paler below. They are simple, oblong-lanceolate, about 100 mm long, have reddish leaf stalks are and clustered mainly at the end of the branches. When young, leaves are pale green and maroon. Small, whitish or creamy yellow clusters of flowers appear on the branchlets in June to December. The fruits are thinly fleshed and spherical in shape, green when young and purple when matured. It is not uncommon to find flowers and fruit on the same tree. Fruits start appearing three months after the flowers. Conservation Status Status 1 of 4 2016/12/15 12:20 PM Rapanea melanophloeos | Plantz Africa about:reader?url=http://pza.sanbi.org/rapanea-melanophloeos R. melanophloes is not threatened or endangered; this is attributed to its wide distribution. Distribution and habitat Distribution description The Cape beech is widely distributed throughout southern Africa from the southern Cape to Zambia, and the east coast to the tropics. It is found along the damp areas of mountain and coastal forests or swamps and bush clumps. The Cape beech does well in coastal areas where winds are strong; it is fairly drought- tolerant. R. melanophloes and R. gilliana are the two known species of Rapanea in South Africa. Occurring on the coast of the Eastern Cape, R. gilliana is a small tree/shrub compared to R. melanophloes. Derivation of name and historical aspects History It is surmised that the name Rapanea is derived from the Guinean name. The specific name melanophloeos can be interpreted as dark bark, but this is only the case in older specimens. The Cape beech is not related to the European beeches; the wood resembles the Faurea species commonly known as boekenhout, hence the Afrikaans name. The Xhosa name isiQwane sehlati which means Protea of the forest, describes the cluster of the leathery leaves at the end of the branches. Ecology Ecology The flower attracts bees and flies, and the fruit is eaten birds, baboons and vervet monkeys. Uses Use The wood is hard and used for furniture-making and violins. The grey bark and sometimes roots are used medicinally for respiratory problems, stomach, muscular and heart complaints. The bark contains tannin and is used as iNtelezi (a charm to protect against evil spirits) by Nguni people. 2 of 4 2016/12/15 12:20 PM Rapanea melanophloeos | Plantz Africa about:reader?url=http://pza.sanbi.org/rapanea-melanophloeos Growing Rapanea melanophloeos Grow It can be used as a hardy screening plant, as it is dense, evergreen and sends out suckers to form bush clumps. It requires low maintenance, if planted in the right area, not next to paved areas where roots and new suckers can sprout. R. melanophloeos grows easily from seed sown in spring or early summer. Seed can be sown in a well-drained, general-mix, potting soil, placed in a warm, moist, shaded area. Treatment of seed with fungicide will prevent damping off and increase the percentage germination. References Coates Palgrave, K. 1977. Trees of southern Africa, edn 1. Struik, Cape Town, Johannesburg. Palmer, E. & Pitman, N. 1972. Trees of southern Africa, vol. III. Balkema, Cape Town. Pooley, E. 1993. The complete field guide to trees of Zululand and Transkei. The Natal Flora Publications Trust, Durban. Van Wyk, B. & Van Wyk, P. 1997. Field guide to trees of southern Africa. Struik, Cape Town. Van Wyk, B-E., Van Oudtshoorn, B. & Gericke, N. 1997. Medicinal plants of South Africa. Briza Publications, Pretoria. Credits Phakamani m'Afrika Xaba 3 of 4 2016/12/15 12:20 PM Rapanea melanophloeos | Plantz Africa about:reader?url=http://pza.sanbi.org/rapanea-melanophloeos Harold Porter National Botanical Garden April 2005 4 of 4 2016/12/15 12:20 PM.
Load more

Recommended publications
  • Harvesting Impacts on Commonly Used Medicinal Tree Species (Catha
    botha.qxd 2004/10/05 09:53 Page 1 Harvesting impacts on commonly used medicinal tree species (Catha edulis and Rapanea melanophloeos) under different land management regimes in the Mpumalanga Lowveld, South Africa J. BOTHA, E.T.F. WITKOWSKI and C.M. SHACKLETON Botha, J., E.T.F. Witkowski and C.M. Shackleton. 2004. Harvesting impacts on com- monly used medicinal tree species (Catha edulis and Rapanea melanophloeos) under different land management regimes in the Mpumalanga Lowveld, South Africa. Koedoe 47(2): 1–18. Pretoria. ISSN 0075-6458. Harvesting of products from plants in the wild is widespread throughout southern Africa. Particularly important products are plant parts used in traditional medicine. However, the impacts of harvesting practices are rarely quantified, with as yet insuffi- cient generic rules across species and life forms. This limits the predictive ability to monitor and manage the affected populations. This paper examines the harvesting impact on two popular woody medicinal species used throughout sub-Saharan Africa, namely Catha edulis (Vahl) Forssk. ex Endl. (bushman’s tea) and Rapanea melanophloeos (L.) Mez. (Cape beech). In both species, basal diameters, heights, and the number of size classes in the harvest- ed populations were lower than in unharvested. Densities of harvested populations were higher in both species, including densities of young plants, but the frequency of indi- viduals in larger size classes was lower. The populations of both species being harvest- ed for medicinal products appeared to be withstanding the current levels of harvesting, but the population structure of C. edulis populations being harvested for poles on the roadside and near human settlements had been substantially altered.
    [Show full text]
  • University of California Santa Cruz Responding to An
    UNIVERSITY OF CALIFORNIA SANTA CRUZ RESPONDING TO AN EMERGENT PLANT PEST-PATHOGEN COMPLEX ACROSS SOCIAL-ECOLOGICAL SCALES A dissertation submitted in partial satisfaction of the requirements for the degree of DOCTOR OF PHILOSOPHY in ENVIRONMENTAL STUDIES with an emphasis in ECOLOGY AND EVOLUTIONARY BIOLOGY by Shannon Colleen Lynch December 2020 The Dissertation of Shannon Colleen Lynch is approved: Professor Gregory S. Gilbert, chair Professor Stacy M. Philpott Professor Andrew Szasz Professor Ingrid M. Parker Quentin Williams Acting Vice Provost and Dean of Graduate Studies Copyright © by Shannon Colleen Lynch 2020 TABLE OF CONTENTS List of Tables iv List of Figures vii Abstract x Dedication xiii Acknowledgements xiv Chapter 1 – Introduction 1 References 10 Chapter 2 – Host Evolutionary Relationships Explain 12 Tree Mortality Caused by a Generalist Pest– Pathogen Complex References 38 Chapter 3 – Microbiome Variation Across a 66 Phylogeographic Range of Tree Hosts Affected by an Emergent Pest–Pathogen Complex References 110 Chapter 4 – On Collaborative Governance: Building Consensus on 180 Priorities to Manage Invasive Species Through Collective Action References 243 iii LIST OF TABLES Chapter 2 Table I Insect vectors and corresponding fungal pathogens causing 47 Fusarium dieback on tree hosts in California, Israel, and South Africa. Table II Phylogenetic signal for each host type measured by D statistic. 48 Table SI Native range and infested distribution of tree and shrub FD- 49 ISHB host species. Chapter 3 Table I Study site attributes. 124 Table II Mean and median richness of microbiota in wood samples 128 collected from FD-ISHB host trees. Table III Fungal endophyte-Fusarium in vitro interaction outcomes.
    [Show full text]
  • Bark Re-Growth and Wood Decay in Response to Bark Stripping for Medicinal Use
    Bark re-growth and wood decay in response to bark stripping for medicinal use By Ntombizodwa Ngubeni Thesis presented in fulfillment of the requirements for the degree of Master of Science in Conservation Ecology at the Faculty of AgriSciences University of Stellenbosch Supervisor: Dr Shayne Jacobs Co-Supervisor: Prof. Thomas Seifert February, 2015 Stellenbosch University https://scholar.sun.ac.za Declaration ` By submitting this thesis electronically, I declare that the entirety of the work contained therein is my own original work, that I am the authorship owner thereof (unless to the extent explicitly otherwise stated) and that I have not previously in its entirety or in part submitted it for obtaining any qualification. Signature: Date: 13/02/2015 Copyright © 2015 Stellenbosch University All rights res ii Stellenbosch University https://scholar.sun.ac.za Abstract Plants have been used for centuries to treat a wide range of ailments in the history of all civilizations. However, a growing interest in medicinal plants requires appropriate management to prevent over-exploitation of target species. The challenge for scientists is to find equilibrium between resource exploitation and the maintenance of viable populations of target species. Sustainability of use requires an understanding of the ecological, economic and socio-cultural aspects of resource use and the interaction between these factors. This research focuses on the ecological and socio-cultural aspects required to underwrite species-specific sustainable harvesting systems for bark used for traditional medicine. The social survey conducted in the form of structured interviews with traditional healers reported 69 plant species used for medicinal purposes in the southern Cape.
    [Show full text]
  • The Biodiversity of the Virunga Volcanoes
    THE BIODIVERSITY OF THE VIRUNGA VOLCANOES I.Owiunji, D. Nkuutu, D. Kujirakwinja, I. Liengola, A. Plumptre, A.Nsanzurwimo, K. Fawcett, M. Gray & A. McNeilage Institute of Tropical International Gorilla Forest Conservation Conservation Programme Biological Survey of Virunga Volcanoes TABLE OF CONTENTS LIST OF TABLES............................................................................................................................ 4 LIST OF FIGURES.......................................................................................................................... 5 LIST OF PHOTOS........................................................................................................................... 6 EXECUTIVE SUMMARY ............................................................................................................... 7 GLOSSARY..................................................................................................................................... 9 ACKNOWLEDGEMENTS ............................................................................................................ 10 CHAPTER ONE: THE VIRUNGA VOLCANOES................................................................. 11 1.0 INTRODUCTION ................................................................................................................................ 11 1.1 THE VIRUNGA VOLCANOES ......................................................................................................... 11 1.2 VEGETATION ZONES .....................................................................................................................
    [Show full text]
  • Competition Effects in an Afrotemperate Forest Thomas Seifert1*†, Stefan Seifert1†, Armin Seydack2, Graham Durrheim2 and Klaus Von Gadow1†
    Seifert et al. Forest Ecosystems 2014, 1:13 http://www.forestecosyst.com/content/1/1/13 RESEARCH ARTICLE Open Access Competition effects in an afrotemperate forest Thomas Seifert1*†, Stefan Seifert1†, Armin Seydack2, Graham Durrheim2 and Klaus von Gadow1† Abstract Background: Information about competition responses is mainly available for monospecific stands or mixed stands with a small number of species. Studies on complex multi-species and highly structured forest ecosystems are scarce. Accordingly, the objective of this study was to quantify competition effects and analyse competition responses in a species-diverse afrotemperate forest in South Africa, based on an observational study with mapped tree positions and long-term diameter increment records. Methods: The sensitivity to competition was analysed for individual species and involved the calculation of the slope of the linear relation between the value of a competition index (CI) and diameter growth as a measure of sensitivity. In a next step different competition indices were combined and tree diameters were grouped in three classes as surrogates for canopy status and ontogenetic stage. Results: Five competition indices were found to be effective in showing sensitivity to competition for a number of canopy and sub-canopy species. Significant linear regressions were fitted for 18 of a total of 25 species. Species reactions varied significantly in their sensitivity to the different CIs. The indices were classified as belonging to two groups, those that responded more to local crowding and those that are more sensitive to overtopping, which revealed species-specific sensitivities to both factors. The analysis based on diameter classes revealed that species clearly changed their sensitivity to crowding or overtopping depending on diameter.
    [Show full text]
  • Tight Control of Nitrate Acquisition in a Plant Species That Evolved in an Extremely
    Tight Control of Nitrate Acquisition in a Plant Species that Evolved in an Extremely Phosphorus-Impoverished Environment M. Asaduzzaman Prodhan1*, Ricarda Jost1, Mutsumi Watanabe2, Rainer Hoefgen2, Hans Lambers1 & Patrick M. Finnegan1 1School of Plant Biology, The University of Western Australia, 35 Stirling Highway, Perth, WA 6009, Australia; 2Max Planck Institute for Molecular Plant Physiology, Am Mühlenberg 1, Potsdam-Golm D- 14476, Germany * Author for correspondence: M. Asaduzzaman Prodhan Tel: +61 430079374 E-mail: [email protected]; [email protected]; [email protected] 1 Abstract Hakea prostrata (Proteaceae) has evolved in an extremely phosphorus- (P) limited environment. This species exhibits an exceptionally low ribosomal RNA (rRNA) and low protein and nitrogen (N) concentration in its leaves. Little is known about the N requirement of this species, and its link to P metabolism, despite this being the key to understanding how it functions with a minimal P budget. Hakea prostrata plants were grown with various N supplies. Metabolite and elemental analyses were performed to determine its N requirement. Hakea prostrata maintained its organ N content and concentration at a set-point, independent of a 25-fold difference nitrate supplies. This is in sharp contrast to plants that are typically studied, which take up and store excess nitrate. Plants grown without nitrate had lower leaf chlorophyll and carotenoid concentrations, indicating N deficiency. However, H. prostrata plants at low or high nitrate availability had the same photosynthetic pigment levels, and hence were not physiologically compromised by the treatments. The tight control of nitrate acquisition in H. prostrata retains protein at a very low level, which results in a low demand for rRNA and P.
    [Show full text]
  • De Zalze Plant List
    DE ZALZE ESTATE REGENERATIVE PLANT LIST - 20 AUGUST 2020 Groundcovers Grasses Restios Ferns Bulbs Succulents Climbers Shrubs Shrubs / small Trees PLANTLIST HOUSES: KLIPHEUWEL - WHITE PLANTING COMPLETED trees Low growing flowering plants Agapanthus africanus 'Albus' (white) African lily (Albus) Coleonema album Cape May Hypoestes aristata (White) Ribbon bush Myrsine africana Cape Myrtle Pelargonium peltatum (white) Ivy-leaved Pelargonium Plectranthus verticillatus Money plant Plumbago auriculata (white) Cape Leadwort Scabiosa drakensbergensis (white) Drakensberg Scabious Watsonia borbonica 'Snow Queen' White Bugle Lily PLANTLIST HOUSES: GENERAL Trees Acokanthera oppositifolia Bushman's Poison Canthium mundianum (= Afrocanthium gilfillanii) Rock Alder Celtis africana White stinkwood Diospyros whyteana Bladder-Nut Kiggelaria africana Wild Peach Nuxia floribunda Forest Elder Olea europaea subsp. africana Wild Olive Pittosporum viridiflorum White Cape Beech Rapanea melanophloeos Cape Beech Rothmannia capensis Wild Gardenia Rothmannia globosa September Bells Sideroxylon inerme White Milkwood Zanthoxylum capense Small Knobwood Small Trees/Shrubs Buddleja saligna (shade) False Olive Buddleja salviifolia (sun) Sagewood Burchellia bubalina Wild Pomegranate Buxus macowanii African Box Cassine peragua Cape Saffron Crotalaria capensis Cape Rattle-Pod Dais cotinifolia Pompon Tree Diospyros glabra Fynbos Star-apple Grewia occidentalis Cross-Berry Gymnosporia buxifolia Spikethorn Halleria lucida Tree Fuchsia Indigofera natalensis Forest Indigo Maurocenia
    [Show full text]
  • Download [PDF File]
    Toreign Diseases of Forest Trees of the World U.S. D-T. pf,,„,ç^^,^^ AGRICULTURE HANDBOOK NO. 197 U.S. DEPARTMENT OF AGRICULTURE Foreign Diseases of Forest Trees of the World An Annotated List by Parley Spaulding, formerly forest pathologis Northeastern Forest Experiment Station Forest Service Agriculture Handbook No. 197 August 1961 U.S. DEPAftTÄffiNT OF AGRICULTURE ACKNOWLEDGMENTS Two publications have been indispensable to the author in prepar- ing this handbook. John A. Stevenson's "Foreign Plant Diseases" (U.S. Dept. Agr. unnumbered publication, 198 pp., 1926) has served as a reliable guide. Information on the occurrence of tree diseases in the United States has been obtained from the "Index of Plant Dis- eases in the United States" by Freeman Weiss and Muriel J. O'Brien (U.S. Dept. Agr. Plant Dis. Survey Spec. Pub. 1, Parts I-V, 1263 pp., 1950-53). The author wishes to express liis appreciation to Dean George A. Garratt for providing free access to the library of the School of Forestry, Yale University. The Latin names and authorities for the trees were verified by Elbert L. Little, Jr., who also checked the common names and, where possible, supplied additional ones. His invaluable assistance is grate- fully acknowledged. To Bertha Mohr special thanks are due for her assistance, enabling the author to complete a task so arduous that no one else has attempted it. For sale by the Superintendent of Documents, iTs. Government Printing Ofläee- Washington 25, D.C. — Price $1.00 *^ CONTENTS Page Introduction 1 The diseases 2 Viruses 3 Bacteria 7 Fungi 13 Host index of the diseases 279 Foreign diseases potentially most dangerous to North American forests__ 357 m Foreign Diseases of Forest Trees of the World INTRODUCTION Diseases of forest trees may be denned briefly as abnormal physi- ology caused by four types of factors, singly or in combination: (1) Nonliving, usually referred to as nonparasitic or site factor; (2) ani- mals, including insects and nematodes; (3) plants; and (4) viruses.
    [Show full text]
  • Herbaceous Angiosperms Are Not More Vulnerable to Drought-Induced Embolism Than Angiosperm Trees Frederic Lens, Catherine Picon-Cochard, Chloé E
    Herbaceous angiosperms are not more vulnerable to drought-induced embolism than angiosperm trees Frederic Lens, Catherine Picon-Cochard, Chloé E. L. Delmas, Constant Signarbieux, Alexandre Buttler, Hervé Cochard, Steven Jansen, Thibaud Chauvin, Larissa Chacon Doria, Marcelino del Arco, et al. To cite this version: Frederic Lens, Catherine Picon-Cochard, Chloé E. L. Delmas, Constant Signarbieux, Alexandre But- tler, et al.. Herbaceous angiosperms are not more vulnerable to drought-induced embolism than angiosperm trees. Plant Physiology, American Society of Plant Biologists, 2016, 172 (2), pp.661-667. 10.1104/pp.16.00829. hal-02638426 HAL Id: hal-02638426 https://hal.inrae.fr/hal-02638426 Submitted on 28 May 2020 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Plant Physiology Preview. Published on June 7, 2016, as DOI:10.1104/pp.16.00829 1 short title: Embolism resistance in herbs 2 3 Herbaceous angiosperms are not more vulnerable to drought-induced embolism 4 than angiosperm trees 5 6 Frederic Lensa, Catherine Picon-Cochardb, Chloé E. L. Delmasc, Constant Signarbieuxd,e, 7 Alexandre Buttlerd,e, Hervé Cochardf, Steven Janseng, Thibaud Chauvinf,h, Larissa 8 Chacon Doriaa, Marcelino del Arcoi, Sylvain Delzonj 9 10 aNaturalis Biodiversity Center, Leiden University, P.O.
    [Show full text]
  • <I>Myrtales</I> in China: Phylogeny, Host Range, And
    Persoonia 45, 2020: 101–131 ISSN (Online) 1878-9080 www.ingentaconnect.com/content/nhn/pimj RESEARCH ARTICLE https://doi.org/10.3767/persoonia.2020.45.04 Cryphonectriaceae on Myrtales in China: phylogeny, host range, and pathogenicity W. Wang1,2, G.Q. Li1, Q.L. Liu1, S.F. Chen1,2 Key words Abstract Plantation-grown Eucalyptus (Myrtaceae) and other trees residing in the Myrtales have been widely planted in southern China. These fungal pathogens include species of Cryphonectriaceae that are well-known to cause stem Eucalyptus and branch canker disease on Myrtales trees. During recent disease surveys in southern China, sporocarps with fungal pathogen typical characteristics of Cryphonectriaceae were observed on the surfaces of cankers on the stems and branches host jump of Myrtales trees. In this study, a total of 164 Cryphonectriaceae isolates were identified based on comparisons of Myrtaceae DNA sequences of the partial conserved nuclear large subunit (LSU) ribosomal DNA, internal transcribed spacer new taxa (ITS) regions including the 5.8S gene of the ribosomal DNA operon, two regions of the β-tubulin (tub2/tub1) gene, plantation forestry and the translation elongation factor 1-alpha (tef1) gene region, as well as their morphological characteristics. The results showed that eight species reside in four genera of Cryphonectriaceae occurring on the genera Eucalyptus, Melastoma (Melastomataceae), Psidium (Myrtaceae), Syzygium (Myrtaceae), and Terminalia (Combretaceae) in Myrtales. These fungal species include Chrysoporthe deuterocubensis, Celoporthe syzygii, Cel. eucalypti, Cel. guang­ dongensis, Cel. cerciana, a new genus and two new species, as well as one new species of Aurifilum. These new taxa are hereby described as Parvosmorbus gen.
    [Show full text]
  • Potential Natural Vegetation of Eastern Africa (Ethiopia, Kenya, Malawi, Rwanda, Tanzania, Uganda and Zambia)
    FOREST & LANDSCAPE WORKING PAPERS 62 / 2011 Potential Natural Vegetation of Eastern Africa (Ethiopia, Kenya, Malawi, Rwanda, Tanzania, Uganda and Zambia) VOLUME 2 Description and Tree Species Composition for Forest Potential Natural Vegetation types R. Kindt, P. van Breugel, J.-P.B Lillesø, M. Bingham, Sebsebe Demissew, C. Dudley, I. Friis, F. Gachathi, J. Kalema, F. Mbago, V. Minani, H.N. Moshi, J. Mulumba, M. Namaganda, H.J. Ndangalasi, C.K. Ruffo, R. Jamnadass and L. Graudal Title Potential natural vegetation of eastern Africa. Volume 2: Description and tree species composition for forest potential natural vegetation types Authors Kindt, R., van Breugel, P., Lillesø, J.-P.B., Bingham, M., Sebsebe Demissew, Dudley, C., Friis, I., Gachathi, F., Kalema, J., Mbago, F., Minani, V., Moshi, H.N., Mulumba, J., Namaganda, M., Ndangalasi, H.J., Ruffo, C.K., Jamnadass, R. and Graudal, L. Collaborating Partner World Agroforestry Centre Publisher Forest & Landscape Denmark University of Copenhagen Rolighedsvej 23 DK-1958 Frederiksberg [email protected] +45-3331500 Series - title and no. Forest & Landscape Working Paper 62-2011 ISBN ISBN 978-87-7903-551-5 Layout Melita Jørgensen Citation Kindt, R., van Breugel, P., Lillesø, J.-P.B., Bingham, M., Sebsebe Demissew, Dudley, C., Friis, I., Gachathi, F., Kalema, J., Mbago, F., Minani, V., Moshi, H.N., Mulumba, J., Namaganda, M., Ndangalasi, H.J., Ruffo, C.K., Jamnadass, R. and Graudal, L. 2011 Po- tential natural vegetation of eastern Africa. Volume 2: Description and tree species composition for forest potential natural vegetation types. Forest & Landscape Working Papers no. 62-2011 Citation allowed with clear source indication All rights reserved.
    [Show full text]
  • Forest Ecosystem Management Plan: Western Cape
    Forest ecosystem management plan: western cape Prepared for: Western Cape Conservation Stewardship Association (WCCSA) & CapeNature By: The Nature Conservation Corporation JULY 2008 FOREST Ecosystem Management Plan: Western Cape July 2008 1 This Ecosystem Management Plan forms part of a set of 7, with an EMP Guide Tool for the implementation of these, all available from C.A.P.E. at Kirstenbosch, Cape Town. Copyright photographs © 2008 The Nature Conservation Corporation NCC Environmental Services (Pty) Ltd trading as The Nature Conservation Corporation Reg. No.: 2007/023691/07 P O Box 30223 Tokai 7966 Republic of South Africa Tel: 021 702 2884 Fax: 021 701 5302 [email protected] www.natureconservation.co.za Citation: Jacobs, K. & Jangle, R. 2008. Forest Ecosystem Management Plan: Western Cape. Unpublished, The Nature Conservation Corporation, Cape Town. Cover photograph: A flood-scoured stream in otherwise relatively stable Southern Afrotemperate Forest creating opportunities for recruitment and dynamic interaction. acknowledgements We acknowledge the input from landowners and their valuable contribution to conservation. Also, on behalf of all the beneficiaries of this project, we acknowledge the main donor Critical Ecosystem Partnership Fund (CEPF), and co-funders: WCCSA, CapeNature and The Nature Conservation Corporation. FOREST Ecosystem Management Plan: Western Cape July 2008 2 introduction.............................................................................. 4 ecosystem description ...........................................................
    [Show full text]