DOCSLIB.ORG

Native Plants of Subalpine Areas of Canterbury Brochure

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Native Plants of Subalpine Areas of Canterbury Brochure CANTERBURY Further information: Native plants of Motukarara Conservation Nursery Waihora Domain, Motukarara, subalpine areas RD 2, Christchurch 7672 PHONE: 03 329 7846 of Canterbury EMAIL: [email protected] www.doc.govt.nz/ conservationnursery www.doc.govt.nz Grown from seed collected from the Mackenzie District Council area Cover photo: Torlesse Range. Kelvin McMillan Published by: Department of Conservation Mahaanui/Sockburn Office PO Box 11089, Sockburn 8443 Christchurch, New Zealand Editing and design: DOC Creative Services Conservation House Wellington May 2021 This publication is produced using paper sourced from well-managed, renewable and legally logged forests. R194826 The subalpine region is dominated by various species of snow T = threatened Coriaria sarmentosa tussock, occupying a range of environmental conditions. Corokia cotoneaster, korokio, corokia Acaena caesiiglauca The broad-leaved snow tussock (Chionochloa flavescens) Craspedia uniflora, woollyhead and red tussock/hau mata (Chionochloa rubra) prefer Acaena inermis Discaria toumatu, matagouri, tūmatakuru wetter sites, whereas the narrow-leaved snow tussock/wī Aciphylla aurea, taramea, golden spaniard Festuca matthewsii, alpine fescue tussock kura (Chionochloa rigida) and the slim-leaved snow tussock Aciphylla montana Festuca novae-zelandiae, fescue tussock (Chionochloa macra) prefer drier sites. Aciphylla scott-thomsonii Hebe buchannii Aciphylla subflabellata Shrub species are also common in the subalpine environment Hebe cupressoides (T) and form extensive communities, commonly referred Aristotelia fruticosa, mountain wineberry Hebe haastii to as a subalpine shrub zone. Snow tōtara (Podocarpus Brachyglottis bellidioides Hebe macrantha nivalis), mountain toatoa (Phyllocladus alpinus), porcupine Brachyglottis bennetii Hebe odora shrub (Melicytus alpinus), species of turpentine shrubs Brachyglottis cassinioides Hebe pinguifolia (Dracophyllum), hebe/koromiko, and coprosma/karamū are Carmichaelia grandiflora Hebe subalpina common throughout this area. Carmichaelia petriei, desert broom Melicytus alpinus, porcupine shrub An important part of the subalpine flora is a wide diversity Carmichaelia uniflora Muehlenbeckia axillaris, creeping pohuehue of herbaceous plant species. Common species include the Celmisia semicordata, false spaniard Olearia cymbifolia, shrub daisy mountain daisies (celmisia/tikumu), speargrass/taramea Chionochloa conspicua, hunangāmoho Olearia fimbriata (Aciphylla), small tussocks and grasses – such as mountain Chionochloa flavescens, broad-leaved snow tussock Olearia virgata fescue (Festuca matthewsii) and carpet grass (Chionochloa Chionochloa rigida, wī kura, narrow-leaved snow tussock Ozothamnus leptophyllus, tauhinu, golden cottonwood australis), gentians and mountain buttercups/kawariki Chionochloa rubra, haumata, red tussock Phyllocladus alpinus, mountain toatoa (Ranunculus). Mats, or cushion plants, evolved to withstand Coprosma atropurpurea Pimelea prostrata harsh conditions, are also a feature of subalpine flora. Coprosma ciliata Pittosporum patulum (T) Vegetable sheep, such as Raoulia exima, are an excellent Coprosma dumosa example of the cushion plant habit. Poa colensoi, blue tussock Coprosma propinqua, mingimingi Poa macra Two threatened species found growing in the subalpine Coprosma rugosa Ranunculus lyallii zone in Canterbury are Pittosporum patulum and Hebe Carmichaelia crassicaulis Sophora microphylla, kōwhai cupressoides. Coriaria angustissima Sophora prostrata, dwarf kōwhai Mat or cushion plant habitats withstand harsh conditions (eg on ridges) Subalpine shrub zone (extensive communities) such as snow tōtara, mountain tōatoa, Broad-leaved Narrow-leaved hebes/koromiko and snow tussock and and slim-leaved coprosma/karamū Alpine stream red tussock in snow tussock in species are common wetter areas drier areas.
Load more

Recommended publications
  • Honeybees, Flowers And
    A Prelude to Spring the AlTIerican Horticultural Society visifs Charleston April 9-12, 1978 From the moment you are registered at the historic • A visit to Middleton Place, America's oldest land­ Mills Hyatt House you will witness a rebirth of an­ scaped gardens, with its artistry of green sculptured tebellum elegance. Your headquarters hotel is the old­ terraces, butterfly lakes and reflecting pools and quaint est in Charleston; it is also the newest. It opened its wooden bridges. (Cocktails, dinner, musical enter­ doors in 1853, when Charleston was the " Queen City tainment and tour.) OF the South" . rich, sophisticated, urbane. The • Drayton Hall, the finest untouched example of Mills Hyatt House served as a center of refinement and Georgian architecture standing in North America, lo­ gracious living. Recently this landmark was recon­ cated on the Ashley River and surrounded by more structed and preserved as a focal point in Charleston's than 100 acres. (Lunch and tour sponsored by the Na­ historic district. You will find the Mills Hyatt House tional Trust for Historic Preservation.) one of the most unusual and handsome hotels in • Charles Towne Landing, 200-acre exhibition park America. graced with ancient live oaks flanked by azaleas You are invited to join us and experience the charm draped with grey lace Spanish moss. Wander through of Charleston, a city that combines a unique gardening the English park gardens with acres and acres filled heritage, antebellum architecture, and modern with hundreds of trees and flowers arranged to facilities. provide interest and beauty. (Lunch, animal forest Charleston is in many ways unique, for she was the tour, guided tram rides.) first American city to protect and preserve the fine old buildings and gardens which have witnessed so much • Magnolia Plantation and Gardens.
    [Show full text]
  • Contrasting Bacterial Communities in Two Indigenous Chionochloa (Poaceae) Grassland Soils in New Zealand
    RESEARCH ARTICLE Contrasting bacterial communities in two indigenous Chionochloa (Poaceae) grassland soils in New Zealand Jocelyn C. Griffith1, William G. Lee2, David A. Orlovich1, Tina C. Summerfield1* 1 Department of Botany, University of Otago, Dunedin, New Zealand, 2 Landcare Research, Dunedin, New Zealand * [email protected] a1111111111 a1111111111 Abstract a1111111111 a1111111111 The cultivation of grasslands can modify both bacterial community structure and impact on a1111111111 nutrient cycling as well as the productivity and diversity of plant communities. In this study, two pristine New Zealand grassland sites dominated by indigenous tall tussocks (Chiono- chloa pallens or C. teretifolia) were examined to investigate the extent and predictability of variation of the bacterial community. The contribution of free-living bacteria to biological OPEN ACCESS nitrogen fixation is predicted to be ecologically significant in these soils; therefore, the diazo- Citation: Griffith JC, Lee WG, Orlovich DA, trophic community was also examined. The C. teretifolia site had N-poor and poorly-drained Summerfield TC (2017) Contrasting bacterial peaty soils, and the C. pallens had N-rich and well-drained fertile soils. These soils also dif- communities in two indigenous Chionochloa (Poaceae) grassland soils in New Zealand. PLoS fer in the proportion of organic carbon (C), Olsen phosphorus (P) and soil pH. The nutrient- ONE 12(6): e0179652. https://doi.org/10.1371/ rich soils showed increased relative abundances of some copiotrophic bacterial taxa (includ- journal.pone.0179652 ing members of the Proteobacteria, Bacteroidetes and Firmicutes phyla). Other copiotrophs, Editor: Brenda A Wilson, University of Illinois at Actinobacteria and the oliogotrophic Acidobacteria showed increased relative abundance in Urbana-Champaign, UNITED STATES nutrient-poor soils.
    [Show full text]
  • Chionochloa Flavicans F. Temata
    Chionochloa flavicans f. temata COMMON NAME Te Mata Peak Snow Tussock SYNONYMS None (first described in 1991) FAMILY Poaceae AUTHORITY Chionochloa flavicans f. temata Connor FLORA CATEGORY Vascular – Native ENDEMIC TAXON Yes ENDEMIC GENUS No ENDEMIC FAMILY No STRUCTURAL CLASS Grasses CHROMOSOME NUMBER 2n = 42 CURRENT CONSERVATION STATUS 2012 | At Risk – Naturally Uncommon | Qualifiers: OL PREVIOUS CONSERVATION STATUSES 2009 | At Risk – Naturally Uncommon | Qualifiers: OL 2004 | Range Restricted DISTRIBUTION Endemic. North Island, Hawkes Bay, where it is only known from Te Mata Peak, Havelock North. HABITAT Confined to limestone cliffs where it can at times be locally dominant. FEATURES Tall, rather stout, often sprawling, flabellate tussock with persistent leaves and sheaths. Leaf-sheath to 150 mm, pinkish or purplish, chartaceous, entire, becoming fibrous, keeled, glabrous or with a few long hairs, apical tuft of hairs to 1 mm. Ligule to 0.7 mm. Leaf-blade to 750 × 8 mm, dark green, often distinctly glaucous, keeled, persistent, glabrous except for some short hairs above ligule and prickle-teeth on margins and abaxially at apex. Culm to 1.5 m, internodes glabrous. Inflorescence to 300 mm, clavate, dense and compact, not naked below; rachis smooth below, branches and pedicels densely scabrid and with some long hairs at branch axils. Spikelets of up to 4 distant florets. Glumes to 4 mm, broad, shallowly bifid, sometimes purpled, margins ciliate, prickle-teeth adaxially above, < nearest lemma lobes; lower 3-nerved, upper 5-nerved. Lemma to 4 mm, shorter and broader than typical form; hairs dense on margin, few aside central nerve, rarely reaching sinus, prickle-teeth above adaxially and abaxially on nerves; lateral lobes to 0.2 mm, conspicuously awned adjacent to a small lobe; central awn to 6 mm, reflexed, column absent.
    [Show full text]
  • Nzbotsoc No 107 March 2012
    NEW ZEALAND BOTANICAL SOCIETY NEWSLETTER NUMBER 107 March 2012 New Zealand Botanical Society President: Anthony Wright Secretary/Treasurer: Ewen Cameron Committee: Bruce Clarkson, Colin Webb, Carol West Address: c/- Canterbury Museum Rolleston Avenue CHRISTCHURCH 8013 Subscriptions The 2012 ordinary and institutional subscriptions are $25 (reduced to $18 if paid by the due date on the subscription invoice). The 2012 student subscription, available to full-time students, is $12 (reduced to $9 if paid by the due date on the subscription invoice). Back issues of the Newsletter are available at $7.00 each. Since 1986 the Newsletter has appeared quarterly in March, June, September and December. New subscriptions are always welcome and these, together with back issue orders, should be sent to the Secretary/Treasurer (address above). Subscriptions are due by 28 February each year for that calendar year. Existing subscribers are sent an invoice with the December Newsletter for the next years subscription which offers a reduction if this is paid by the due date. If you are in arrears with your subscription a reminder notice comes attached to each issue of the Newsletter. Deadline for next issue The deadline for the June 2012 issue is 25 May 2012. Please post contributions to: Lara Shepherd Museum of New Zealand Te Papa Tongarewa P.O. Box 467 Wellington Send email contributions to [email protected]. Files are preferably in MS Word, as an open text document (Open Office document with suffix “.odt”) or saved as RTF or ASCII. Macintosh files can also be accepted. Graphics can be sent as TIF JPG, or BMP files; please do not embed images into documents.
    [Show full text]
  • REVIEW ARTICLE Fire, Grazing and the Evolution of New Zealand Grasses
    AvailableMcGlone on-lineet al.: Evolution at: http://www.newzealandecology.org/nzje/ of New Zealand grasses 1 REVIEW ARTICLE Fire, grazing and the evolution of New Zealand grasses Matt S. McGlone1*, George L. W. Perry2,3, Gary J. Houliston1 and Henry E. Connor4 1Landcare Research, PO Box 69040, Lincoln 7640, New Zealand 2School of Environment, University of Auckland, Private Bag 92019, Auckland 1142, New Zealand 3School of Biological Sciences, University of Auckland, Private Bag 92019, Auckland 1142, New Zealand 4Department of Geography, University of Canterbury, Private Bag 4800, Christchurch 8140, New Zealand *Author for correspondence (Email: [email protected]) Published online: 7 November 2013 Abstract: Less than 4% of the non-bamboo grasses worldwide abscise old leaves, whereas some 18% of New Zealand native grasses do so. Retention of dead or senescing leaves within grass canopies reduces biomass production and encourages fire but also protects against mammalian herbivory. Recently it has been argued that elevated rates of leaf abscission in New Zealand’s native grasses are an evolutionary response to the absence of indigenous herbivorous mammals. That is, grass lineages migrating to New Zealand may have increased biomass production through leaf-shedding without suffering the penalty of increased herbivory. We show here for the Danthonioideae grasses, to which the majority (c. 74%) of New Zealand leaf-abscising species belong, that leaf abscission outside of New Zealand is almost exclusively a feature of taxa of montane and alpine environments. We suggest that the reduced frequency of fire in wet, upland areas is the key factor as montane/alpine regions also experience heavy mammalian grazing.
    [Show full text]
  • The European Alpine Seed Conservation and Research Network
    The International Newsletter of the Millennium Seed Bank Partnership August 2016 – January 2017 kew.org/msbp/samara ISSN 1475-8245 Issue: 30 View of Val Dosdé with Myosotis alpestris The European Alpine Seed Conservation and Research Network ELINOR BREMAN AND JONAS V. MUELLER (RBG Kew, UK), CHRISTIAN BERG AND PATRICK SCHWAGER (Karl-Franzens-Universitat Graz, Austria), BRIGITTA ERSCHBAMER, KONRAD PAGITZ AND VERA MARGREITER (Institute of Botany; University of Innsbruck, Austria), NOÉMIE FORT (CBNA, France), ANDREA MONDONI, THOMAS ABELI, FRANCESCO PORRO AND GRAZIANO ROSSI (Dipartimento di Scienze della Terra e dell’Ambiente; Universita degli studi di Pavia, Italy), CATHERINE LAMBELET-HAUETER, JACQUELINE DÉTRAZ- Photo: Dr Andrea Mondoni Andrea Dr Photo: MÉROZ AND FLORIAN MOMBRIAL (Conservatoire et Jardin Botaniques de la Ville de Genève, Switzerland). The European Alps are home to nearly 4,500 taxa of vascular plants, and have been recognised as one of 24 centres of plant diversity in Europe. While species richness decreases with increasing elevation, the proportion of endemic species increases – of the 501 endemic taxa in the European Alps, 431 occur in subalpine to nival belts. he varied geology of the pre and they are converting to shrub land and forest awareness of its increasing vulnerability. inner Alps, extreme temperature with reduced species diversity. Conversely, The Alpine Seed Conservation and Research T fluctuations at altitude, exposure to over-grazing in some areas (notably by Network currently brings together five plant high levels of UV radiation and short growing sheep) is leading to eutrophication and a science institutions across the Alps, housed season mean that the majority of alpine loss of species adapted to low nutrient at leading universities and botanic gardens: species are highly adapted to their harsh levels.
    [Show full text]
  • Leaf Trait–Palatability Relationships Differ Between Ungulate Species: Evidence from Cafeteria Experiments Using Naïve Tussock Grasses
    AvailableLloyd et al.: on-line Leaf at: traits http://www.newzealandecology.org/nzje/ and ungulate palatability 219 Leaf trait–palatability relationships differ between ungulate species: evidence from cafeteria experiments using naïve tussock grasses Kelvin M. Lloyd1*, Meg L. Pollock2, Norman W.H. Mason3 and William G. Lee1 1Landcare Research, Private Bag 1930, Dunedin 9054, New Zealand 2SAC, Hill and Mountain Research Centre, Sustainable Livestock Systems, Kirkton, Crianlarich, FK20 8RU, Scotland, UK 3Landcare Research, Private Bag 3127, Hamilton 3240, New Zealand *Author for correspondence: (Email: [email protected]) Published on-line: 28 January 2010 Abstract: Leaf functional traits have been proposed as general indicators of plant palatability to ungulate herbivores, identifying which species are likely to be most at risk from ungulates, and how ungulate grazing may change ecosystem processes. However, few studies have tested whether leaf trait–palatability relationships are consistent across different ungulate species. The palatability of 44 native New Zealand grass taxa (from the genera Festuca and Chionochloa) to two ungulate herbivores (sheep Ovis aries and red deer Cervus elaphus scoticus) was assessed in cafeteria experiments. There were significant differences between sheep and deer in the selection or avoidance of grass taxa, in part related to differences in response to variation in leaf functional traits. Deer had a greater tendency than sheep to select grasses with a higher specific leaf area (SLA) and to avoid taxa with a low SLA, suggesting that it is not possible to generalise leaf trait–palatability relationships across different ungulate species. Results suggest different ungulate species are likely to have additive effects on the biodiversity and ecosystem functioning of New Zealand’s native grasslands.
    [Show full text]
  • New Zealand Plants in Australian Gardens Stuart Read
    New Zealand Plants in Australian Gardens Stuart Read Abstract: (11.6.2013): Raised in a large New Zealand garden full of native trees, plant lover Stuart Read was perhaps hard-wired to notice kiwi plants in Australian gardens. Over time he's pieced together a pattern of waves of fashion in their planting and popularity, reflecting scientific and horticultural expansionism, commercial and familial networks and connections across the Tasman. Stuart will examine a range of NZ plants found in old and younger Australian gardens, try to tease out some of the means by which they got here and why they remain popular. No cabbage, This constellation of asterisks Slaps and rustles Its tough tatters In the brisk breeze; Whispers of times past And ancient histories (Barbara Mitcalfe’s poem, ‘Ti Kouka’ (cabbage tree) catches well the distinctive skyline profile of this ubiquitous New Zealand export (in Simpson, 2000, 213) Introduction / overview New Zealand gardens have been introduced to and cultivated in Australian gardens from early in their ‘discovery’, trade and exchanges between the two colonies. Australian and other explorers, botanists, nurserymen, New Zealand settlers and others searched New Zealand’s coasts and bush, bringing plants into cultivation, export and commerce from early in the settlement’s colonization. New Zealand plants have had their ‘vogue’ periods, including as: A) - Economic plants (various timbers, kauri gum for shellacs and jewellery; flax for fibre, rope, cloth; greens for scurvy; poroporo for the contraceptive ‘the pill’); B) - Exotic ornamental imports into Australian gardens and beyond to English and European conservatories (and some warmer, southern) gardens and parks; C) - Depicted or carved as subjects of botanical and other artworks, commercial commodities.
    [Show full text]
  • Grasses, Bulbs and Ferns GARDEN ESCAPEE
    GARDEN ESCAPEE Agapanthus (Agapanthus praecox) Robust, evergreen, clump-forming perennial to 60 centimetres tall, with up to 20 wide leathery leaves on each shoot. Light blue or white flowers forming umbrella-shaped clusters are followed by seed spread by wind and water; it is also spread by the long, thick, underground stem system. Forms dense mats that exclude native species, and seedlings easily outcompete young native plants in warm, dry places. C.Lewis PLANT ME INSTEAD... Rengarenga (Arthropodium cirratum) Turf lily (Liriope muscari) C. Lewis C.Lewis Also consider: Turutu (Dianella nigra) Mikoikoi (Libertia ixiodes) Also consider: Day lily (Hemerocallis species, except H. fulva) 21 Grasses, bulbs and ferns GARDEN ESCAPEE Pampas (Cortaderia selloana & C. jubata) Large perennial clump-forming grass to 5 metres tall with large, upright, fluffy flowers. Leaves are narrow and sharp- edged. Flowers of Cortaderia selloana are white, while those of Cortaderia jubata have a purple tinge. Invades natural areas, suppressing native plants, harbouring animal pests and creating a fire risk. C.Lewis PLANT ME INSTEAD... Snow tussock (Chionochloa flavescens) Toetoe (Cortaderia richardii) www.cfgphoto.com www.cfgphoto.com Also consider: Pepepe (Machaerina sinclairii) Also consider: Red tussock (Chionochloa rubra) Grasses, 22 bulbs and ferns GARDEN ESCAPEE Montbretia (Crocosmia x crocosmiiflora) Evergreen or summer-green clump- forming perennial with bright green, sword-shaped leaves. Orange- red flowers are followed by seed capsules and also spreads by underground corms. Invades natural areas crowding out native species, and the masses of spreading corms in the soil can contribute to erosion, siltation, and the breakdown of stream banks. C.Lewis PLANT ME INSTEAD..
    [Show full text]
  • Chionochloa (Poaceae)
    80 NEWAvailable ZEALAND on-line JOURNAL at: http://www.newzealandecology.org/nzje/ OF ECOLOGY, VOL. 32, NO. 1, 2008 Causes and consequences of frequent flowering on edges in the mast-seeding genus Chionochloa (Poaceae) Joe Hay1, Dave Kelly* and Robert J. Holdaway School of Biological Sciences, University of Canterbury, Private Bag 4800, Christchurch, New Zealand 1Present address: Cawthron Institute, Private Bag 2, Nelson, New Zealand *Author for crrespondence (Email: [email protected]) Published on-line: 17 March 2008 ___________________________________________________________________________________________________________________________________ Abstract: Recent work has shown that resource accumulation is important in allowing mast-seeding plants to display occasional intense reproductive efforts. Anecdotal reports suggest that Chionochloa tussocks (bunchgrasses) on patch edges flower more frequently, and it has been proposed that this is due to greater resource availability. This study aimed to quantify any edge effect in flowering effort in Chionochloa populations at Mt Hutt in the Southern Alps of New Zealand, and to look for correlations with available soil nutrients. It also focused on how higher flowering along edges might affect seed predation rates in these plants, since seed predation is recognised as the likely cause of masting in this genus. As predicted, in a generally low-flowering year flowering was found to be most prolific on upslope edges across a range of altitudes with at least 43% of the flowering effort in the upslope plots being concentrated in the 20% of plot area within 2 m of the upper edge. Upslope edges also exhibited higher nitrate availability than did patch interiors or downslope edges. However, other measured nutrients did not show such a clear pattern.
    [Show full text]
  • Orticulturlsf
    RICAN ORTICULTURlSf NEWS EDITION-SEPTEMBER 1983 Pawpaw: The Forgotten American Fruit Nutritional studies indicate that the American pawpaw (Asimina tri­ loba), a long-neglected American na­ tive that bears excellent-tasting fruit, may emerge as one of our most val­ uable fruit trees. Chemist John P. Cherry of the U.S.D.A. Eastern Regional Research Center in Philadelphia, Pennsylvania analyzed the nutritional value of pawpaws and found that their fruit, which is unusually low in moisture content, is actually higher in unsatu­ rated fats, proteins and carbohy­ drates than three other more com­ mon fruits-apples, peaches and grapes. In addition, the pawpaw has exceptionally high levels of the amino acids that are essential to the human diet-over six times the amounts found in the three other fruits tested. According to Cherry, pawpaws also have high vitamin A and C con­ tent. For example, their vitamin A content is about the same as in ap­ ples and grapes, and although paw­ paws have less vitamin C than do citrus fruits, they have more than twice the amount found in apples, 8 peaches or grapes. Finally, pawpaws are higher in potassium, phospho­ g rus, magnesium, sulfur and iron than the three other fruits tested. A botanical drawing of pawpaw, Asimina triloba, published in 1890 in Silva of North America. Despite its sweet, pearlike fruit, which has the texture of a banana agation techniques, and shipping and can be domesticated successfully. and a fragrant aroma, pawpaws handling methods before pawpaws -Agricultural Research, April 1983 have not been cultivated widely; they are only found growing in a few home gardens.
    [Show full text]
  • Newsletter Number 63 June 2011
    Newsletter Number 63 June 2011 BSO Meetings and Field Trips 5th June 9:00 am. Rain date 6th June. Field Trip to Shag Point. Meet at the Botany Department car park. Contact Bill Wilson, phone: (03) 477 2282. 15th June 5.30 pm. Botanical “Show and Tell“ Evening. Members are invited to bring items of botanical interest to the monthly meeting and talk about them. Items may be short slides shows, books, photographs, plants or any plant related object that has a story attached. See meeting details on p. 3. 13th July 5.30 pm. The 2011 New Zealand Fungal Foray. A talk by David Orlovich. The 25th New Zealand Fungal Foray visited the Taupo region, and it was one of the most productive collecting trips we’ve had for a long time. We didn’t let the wet weather inhibit our collecting too much, and were really impressed with the huge number of Cortinarius species we found. I will present a slide show of some of the best findings. See meeting details on p. 3. 17th July, 10:00 am. Ross Creek–Woodhaugh Garden Track Network. Come and beat the mid-winter blues with a half day trip in the heart of Dunedin. We will explore the network of tracks that begin at Woodhaugh Gardens and wind their way up the Water of Leith and into the Ross Creek Reservoir area. There’s quite a range of natural vegetation passed on the walk including kahikatea-kowhai- ribbonwood-lacebark forest through to more recent kanuka dominated successional communities. Be prepared for a couple of hours walking on well maintained tracks.
    [Show full text]