scholarly journals Pollination of Nypa fruticans (Wurmb.) in a South Florida botanic garden

2021 ◽  
Vol 27 ◽  
Author(s):  
Imena Valdes ◽  
Joanna M Tucker Lima ◽  
Larry R Noblick
Keyword(s):  
Reproductive Success ◽  
Interesting Case ◽  
South Florida ◽  
Ex Situ ◽  
Botanic Gardens ◽  
Native Range ◽  
Botanic Garden ◽  
Nypa Fruticans ◽  
Hand Pollination ◽  
Nipa Palm

When plants are removed from their native habitat, reproduction can be compromised if pollinators are absent, especially when plant-pollinator interactions are species-specific and the plant is self-incompatible. To avoid these pitfalls, botanic gardens often use hand pollination to ensure reproductive success of their living collections, an important aspect of ex-situ conservation. The nipa palm, Nypa fruticans, presents an interesting case study of pollination in a botanic garden and a plant’s ability to successfully reproduce outside its native range without assisted pollination. Nypa fruticans has been growing at Montgomery Botanical Center (MBC) in South Florida since 1984, but for years required hand pollination to produce viable fruit. A recent shift from hand pollination to unassisted pollination suggests that this palm has found an alternative to fertilize its flowers. We investigate possible pollinators and new opportunities for pollination outside the palm’s native range. Rather than the insects typically associated with N. fruticans pollination in its native range in Southeast Asia (i.e., flies and beetles), ants, specifically Paratrechina longicornis, were overwhelmingly the most abundant visitors to nipa palm inflorescences at MBC and likely represent an important pollinator or facilitator of pollination at the garden. Pollination research at botanic gardens complements in-situ field studies and provides important insights into the flexibility of pollination systems to achieve reproductive success outside a plant’s native range. 

scholarly journals Botanic gardens, education, and orchid conservation strategies: the need for a coordinated approach

Lankesteriana ◽  
2011 ◽  
Vol 11 (3) ◽  
Author(s):  
Thomas Mirenda
Keyword(s):  
Plant Conservation ◽  
Global Strategy ◽  
Ex Situ ◽  
Conservation Strategies ◽  
Botanic Gardens ◽  
Botanic Garden ◽  
Orchid Conservation ◽  
Public Garden ◽  
Para Determinar

Se ha escuchado a nivel mundial el llamado para la conservación de orquídeas, por parte de científicos, profesionales de horticultura, propagadores comerciales y los apasionados entusiastas privados, todos con diferentes opiniones sobre la manera para atacar este problema global. Las noticias han sido desalentadoras en relación al calentamiento global, destrucción de hábitat, desplazamiento de poblaciones nativas por parte de agresivas, exóticas e insostenibles depredaciones /cosechas de plantas y los esfuerzos impotentes para hacer cumplir las protecciones legales. Se han dedicado muchas ideas y esfuerzos para determinar estrategias específicas para la conservación de orquídeas, incluyendo la protección al hábitat, la compra y preservación de los “puntos calientes,” así como las tendencias hacia la creación de reservas hortícolas, tanto nativas (reservas de los Jardines de Lankester, Fundación EcoMinga, Ecuagenera) y ex situ (jardines de orquídeas en Hawái, colecciones bajo vidrio, etc.). Tácticas como un banco de semillas, tecnología ADN, esfuerzos de propagación ex situ, así como eventuales reintroducciones, inherentemente dependen de recursos y propiedades de jardines botánicos y cultivadores comerciales responsables. Es este tipo de trabajo de horticultura el que ha salvado a otros géneros que no corresponden a las orquídeas, tales como Franklinia, Torreya, Wollemia, y especies de orquídeas como Paphiopedilum vietnamense, Epidendrum ilense, y Angraecum longicalcar de la extinción. Los jardines botánicos unidos bajo ciertas organizaciones como la Asociación Americana de Jardines Públicos (American Public Garden Association - APGA) y Jardines Botánicos para la Conservación Internacional (Botanic Garden Conservation International - BGCI), necesitan de una mayor cooperación y coordinación para el éxito de sus esfuerzos para la conservación de plantas. Además, es un aspecto crítico que los jardines botánicos se conecten con la comunidad científica (y viceversa), especialmente aquellos que mejor pueden asesorar sobreaquellas especies más amenazadas. Si las colecciones van a ser utilizadas en forma óptima, las sociedades científicas y de horticultura deben estar más conscientes de sus respectivos activos y prioridades. En el Primer Congreso Internacional para la Conservación de Orquídeas (International Orchid Conservation Congress - IOCC), se adoptaron cuatro resoluciones de la Estrategia Global para la Conservación de Plantas (Global Strategy for Plant Conservation – GSPC en inglés): 1): el 90% de todas las orquídeas amenazadas deberían ser asegurada en colecciones ex situ; 2) el 50% debería constar en programas para su recuperación activa; 3) Se debe considerar que las orquídeas están amenazadas cuando su cosecha no es sostenible; y 4) Para el año 2010, cada niño y niña debe estar consciente de lo que es la diversidad de plantas (incluyendo a las orquídeas). ¿C.mo podemos evaluar si se está logrando el progreso hacia estos admirables objetivos sin que exista una entidad que unifique y que pueda recopilar el progreso, la información y el grado de éxitos alcanzado? Al ver el esfuerzo desplegado en tantos lugares separados, es indudable que se necesita urgentemente este tipo de entidad. Constituye la meta de muchos jardines botánicos y una meta específica del Instituto Smithsoniano, el promover la diseminación de conocimientos y comprensión. Con este fin en mente, el anterior objetivo #4 constituye una particular prioridad. A pesar de que alcanzar la meta del 100% de conciencia compartida en relación a la diversidad de plantas para el año 2010, hemos iniciado un proyecto que nos permita comprender y finalmente corregir el llamado síndrome de “Ceguera relativa a las Plantas,” bajo el cual la persona promedio no considera que las plantas son seres vivientes (en el mismo sentido de los animales). Mediante el uso de encuestas y entrevistas personales, se está analizando este síndrome generalizado y penetrante para determinar sus caracter.sticas demográficas, hombre/ mujer, urbano/rural, jóvenes/ viejos, etc. Es imperativo para los educadores que identifiquen la edad en la cual dichas actitudes empiezan a introducirse en la psiquis de los jóvenes. Es necesario aplicar ciertas técnicas que permitan elevar el grado de conciencia de los individuos de todas las edades en relación a la importancia de la diversidad de las plantas y su conservación. Esto puede tomar la forma de presentaciones, exposición a especies representativas, paseos de campo y otras oportunidades educativas, que permitan cultivar un enfoque mental que comprenda y a la final proteja el mundo natural. 

scholarly journals The role of the Francisco Javier Clavijero Botanic Garden (Xalapa, Veracruz, Mexico) in the conservation of the Mexican flora

2021 ◽  
Author(s):  
Milton Díaz-Toribio ◽  
Victor Luna ◽  
Andrew Vovides
Keyword(s):  
Plant Species ◽  
Threatened Species ◽  
Cloud Forest ◽  
Vascular Plant ◽  
Plant Conservation ◽  
Ex Situ ◽  
Botanic Gardens ◽  
Botanic Garden ◽  
Threatened Plant ◽  
Threatened Plant Species

Background and Aims: There are approximately 3000 botanic gardens in the world. These institutions cultivate approximately six million plant species, representing around 100,000 taxa in cultivation. Botanic gardens make an important contribution to ex situ conservation with a high number of threatened plant species represented in their collections. To show how the Francisco Javier Clavijero Botanic Garden (JBC) contributes to the conservation of Mexican flora, we asked the following questions: 1) How is vascular plant diversity currently conserved in the JBC?, 2) How well is this garden performing with respect to the Global Strategy for Plant Conservation (GSPC) and the Mexican Strategy for Plant Conservation (MSPC)?, and 3) How has the garden’s scientific collection contributed to the creation of new knowledge (description of new plant species)?Methods: We used data from the JBC scientific living collection stored in BG-BASE. We gathered information on species names, endemism, and endangered status, according to national and international policies, and field data associated with each species. Key results: We found that 12% of the species in the JBC collection is under some risk category by international and Mexican laws. Plant families with the highest numbers of threatened species were Zamiaceae, Orchidaceae, Arecaceae, and Asparagaceae. We also found that Ostrya mexicana, Tapirira mexicana, Oreopanax capitatus, O. echinops, and O. xalapensis are highly threatened species representative of cloud forest currently in the collection. Conclusions: The conservation and scientific utility of the JBC collection is reflected in the exceptional accession data and the description of 24 new plant species. Having a significant number of threatened plant species in its ex situ collection, the JBC contributes to the implementation of the GSPC, particularly Target 8, as well as the implementation of the MSPC.

scholarly journals The Management of 'Ad Hoc' Ex Situ Conservation Status Species at the Royal Botanic Garden Edinburgh :

2003 ◽  
pp. 43-80
Author(s):  
Elizabeth Radford ◽  
Michael Dossman ◽  
David Rae
Keyword(s):  
Ad Hoc ◽  
Conservation Status ◽  
Royal Botanic Garden ◽  
Ex Situ ◽  
Botanic Gardens ◽  
Botanic Garden ◽  
Current Conservation ◽  
Educational Role ◽  
Conservation Projects

Ad hoc' conservation status species refer to IUCN-listed plants that have been collected by botanic gardens for no immediate conservation objective. They differ from so-called conservation collections, which have usually been collected with very specific conservation objectives in mind. Information was collected for 53 ad hoc conservation status species in the Living Collection at the Royal Botanic Garden Edinburgh (RBGE). Each species was assessed for its potential value for conservation and suggested action points to improve their management for possible conservation projects in the future were given. Discussions were held with various members of staff about the current and future management of threatened plants in the collections. In common with other botanic gardens the majority of the ad hoc collections of conservation status plants at RBGE have been acquired in very small numbers, usually as one accession, frequently of cultivated origin and therefore possess little genetic diversity. Current conservation programmes for such plants are few in number and scope, and the management potential of a large number are limited. More emphasis should be placed on the educational role of these plants and on a focused programme to safeguard the survival of the most threatened species at RBGE.

scholarly journals The Cultivation of Titan Arum (Amorphophallus titanum) :

2007 ◽  
pp. 69-86
Author(s):  
Wolfram Lobin ◽  
Michael Neumann ◽  
Markus Radscheit ◽  
Wilhelm Barthlott
Keyword(s):  
Plant Species ◽  
Ex Situ Conservation ◽  
Natural Habitat ◽  
Ex Situ ◽  
Flagship Species ◽  
Botanic Gardens ◽  
Wild Populations ◽  
Botanic Garden ◽  
The University ◽  
Garden Community

One of the most exciting plant species is the Titan Arum, Amorphophallus titanum, which can truly be regarded as a flagship species for botanic gardens. Wild populations suffer from an increasing pressure on their natural habitat, but botanic gardens can play an important role in the ex-situ conservation of the species. The cultivation of A. titanum is not easy but it offers an irresistible challenge for any keen horticulturist. The University of Bonn Botanic Gardens (Germany) has more than seventy years of experience in the cultivation of this giant and the purpose of this paper is to help the botanic garden community to achieve success in the cultivation of this fascinating plant.

scholarly journals A preliminary survey of the herbaceous flora of the Acharya Jagadish Chandra Bose Indian Botanic Garden (AJCBIBG), Howrah, W.B., India.

2016 ◽  
Vol 5 (05) ◽  
pp. 1335
Author(s):  
Hameed S. S. ◽  
Panda S.P.* ◽  
Sharief M.U. ◽  
Sreekumar P.V. ◽  
Mahapatra H.S. ◽  
...  
Keyword(s):  
Ex Situ Conservation ◽  
Plant Introduction ◽  
Ex Situ ◽  
Preliminary Survey ◽  
Botanic Gardens ◽  
Botanic Garden ◽  
Special Position ◽  
The World ◽  
The Rich ◽  
Different Parts

The Acharya Jagadish Chandra Bose Indian Botanic Garden (AJCBIBG) previously known as Indian Botanic Garden, Howrah, is a historic old garden. This botanic garden has a special position among all the botanic gardens that the world having. In earlier time this garden witnessed as the centre of plant introduction. Till then AJCBIBG served as a centre for ex-situ conservation of many RET species collected from different parts of the globe. The rich and diverse floristic wealth of this garden makes it unique and very special. AJCBIBG is a living repository of 1377 species of plants (excluding herbs). The garden abode a rich herbaceous flora due to its congenial climate. However, records on the herbaceous plants dwelling in AJCBIBG are very scanty. Taking this into account the present study aimed at enlisting the herbaceous flora of the garden. A checklist of plants belonging to various families has been provided in this communication.

scholarly journals Orchid exploration in Tanjung Peropa Wildlife Reserves for Kendari Botanic Gardens collection, Indonesia

2020 ◽  
Vol 21 (5) ◽  
Author(s):  
SRI HARTINI ◽  
POPI APRILIANTI
Keyword(s):  
Soil Acidity ◽  
Ex Situ ◽  
Botanic Gardens ◽  
Botanic Garden ◽  
Conservation Area ◽  
Orchid Species ◽  
Terrestrial Orchids ◽  
Conservation Effort ◽  
Plant Collection ◽  
Wildlife Reserve

Abstract. Hartini S, Aprilianti P. 2020. Orchid exploration in Tanjung Peropa Wildlife Reserves for Kendari Botanic Gardens collection, Indonesia. Biodiversitas 21: 2244-2250. Tanjung Peropa Wildlife Reserve (Tanjung Peropa WR) is one of the conservation area in Southeast Sulawesi Province, Indonesia. The inventory of orchid in this area is still limited and Kendari Botanic Garden (Kendari BG) need to collect the orchids from this location. Orchid diversity inventory and exploration had been carried out on March 26- April 12, 2019, in Tanjung Peropa WR and collecting them as an ex-situ conservation effort in order to enrich Kendari BG plant collection. The specimen was collected by using explorative method at 5 locations in Tanjung Peropa WR. The result showed that there were 10 epiphytic orchids found of Aerides, Cymbidium, Dendrobium, Grammatophyllum, Liparis, Pomatocalpa, and Thrixspermum. Also, there were 5 terrestrial orchids of Corymborkis, Eulophia, Nervilia, Phaius, and Tropidia. The orchid species were found in the area between 25-110 m above sea level (asl), with temperature 27-31°C, humidity 75-80%, soil acidity 5.0-6.0, soil humidity 80-90%, and canopy dense between 60-80%. Kendari BG has collected 34 species of orchid from Southeast Sulawesi, with 25 species of epiphytic and 9 species of terrestrial orchids.

scholarly journals Botanic gardens and plant pathogens: a risk-based approach at the Royal Botanic Garden Edinburgh

2020 ◽  
pp. 127-139
Author(s):  
Katherine Hayden
Keyword(s):  
Plant Pathogens ◽  
Plant Conservation ◽  
Royal Botanic Garden ◽  
Plant Diseases ◽  
Plant Distribution ◽  
Ex Situ ◽  
Botanic Gardens ◽  
Botanic Garden ◽  
Global Environmental ◽  
Horticultural Practice

Introduced and emerging plant diseases as a result of live plant movements are increasingly recognised as a global environmental and economic threat. This presents a fundamental challenge to botanic gardens and other ex situ plant conservation organisations: how to continue this important work while recognising and mitigating the plant health risks. The approach taken by the Royal Botanic Garden Edinburgh is presented as a case study, showing how we have reduced ecological and evolutionary opportunities for pests in ex situ conservation and are monitoring the success of these efforts. We have developed protocols in quarantine and horticultural practice, expanded visitor engagement and public education, and taken a precautionary approach towards plant distribution supported by in-house diagnostics and working closely with statutory authorities. We hope that by sharing activities as well as difficulties, botanic gardens can acknowledge and address the new biosecurity landscape.

Data Capture Project at the Royal Botanic Garden Edinburgh

2009 ◽  
pp. 77-82
Author(s):  
Natacha Frachon ◽  
Martin Gardner ◽  
David Rae
Keyword(s):  
Genetic Resources ◽  
Research Community ◽  
Royal Botanic Garden ◽  
Data Capture ◽  
Plant Biodiversity ◽  
Botanic Gardens ◽  
Botanic Garden ◽  
The World ◽  
Plant Collections ◽  
Field Notes

Botanic gardens, with their large holdings of living plants collected from around the world, are important guardians of plant biodiversity, but acquiring and curating these genetic resources is enormously expensive. For these reasons it is crucial that botanic gardens document and curate their collections in order to gain the greatest benefit from the plants in their care. Great priority is given to making detailed field notes and the process of documentation is often continued during the plants formative years when being propagated. However, for the large majority of plants this process often stops once the material is planted in its final garden location. The Data Capture Project at the Royal Botanic Garden Edinburgh is an attempt to document specific aspects of the plant collections so that the information captured can be of use to the research community even after the plants have died.

Reproductive success of Acacia longifolia (Fabaceae, Mimosoideae) in native and invasive populations

2015 ◽  
Vol 63 (5) ◽  
pp. 387 ◽  
Author(s):  
Marta Correia ◽  
Sílvia Castro ◽  
Susana Rodríguez-Echeverría
Keyword(s):  
Reproductive Success ◽  
Seed Size ◽  
Fruit Set ◽  
Lower Number ◽  
Open Pollination ◽  
Native Range ◽  
Reproductive Assurance ◽  
Acacia Species ◽  
Self Compatibility ◽  
Selfing Ability

The reproductive biology of exotic species affects their capacity to become naturalised and invasive in non-native areas. Selfing is a common trait in many invasive plants probably because it provides reproductive assurance under low availability of pollination vectors and sexual partners. Nonetheless, the predominantly self-incompatible Australian Acacia species are among the most aggressive plants worldwide. To address whether there have been changes in selfing ability and natural reproductive success of A. longifolia during invasion, we compared one population in the invaded area (Portugal) with one population in the native range (Australia). We specifically assessed floral traits, fruit set and offspring traits for selfing and open-pollination treatments. Within each pollination treatment, no differences were found between areas, suggesting that the level of self-compatibility has not changed during invasion. However, the number of aborted seeds and seed size were significantly different between pollination treatments in Australia but not in Portugal. There were significant differences in the number of seeds per pod and in seed weight between ranges. A lower number of aborted seeds, a higher number of fully developed seeds and a greater seed size were found in the invaded area for both pollination treatments. In spite of the low selfing ability of A. longifolia in the invaded area, there was an increase in the quantity and size of the seeds produced in the new region, even for self-pollinated fruits, which might contribute to A. longifolia invasiveness.

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