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Conservation Activities (conservation + activity)
Selected AbstractsPopulation genetics of Galápagos land iguana (genus Conolophus) remnant populationsMOLECULAR ECOLOGY, Issue 23 2008ATHANASIA C. TZIKA Abstract The Galápagos land iguanas (genus Conolophus) have faced significant anthropogenic disturbances since the 17th century, leading to severe reduction of some populations and the extinction of others. Conservation activities, including the repatriation of captive-bred animals to depleted areas, have been ongoing since the late 1970s, but genetic information has not been extensively incorporated. Here we use nine species-specific microsatellite loci of 703 land iguanas from the six islands where the species occur today to characterize the genetic diversity within, and the levels of genetic differentiation among, current populations as well as test previous hypotheses about accidental translocations associated with early conservation efforts. Our analyses indicate that (i) five populations of iguanas represent distinct conservation units (one of them being the recently discovered rosada form) and could warrant species status, (ii) some individuals from North Seymour previously assumed to be from the natural Baltra population appear related to both Isabela and Santa Cruz populations, and (iii) the five different management units exhibit considerably different levels of intrapopulation genetic diversity, with the Plaza Sur and Santa Fe populations particularly low. Although the initial captive breeding programmes, coupled with intensive efforts to eradicate introduced species, saved several land iguana populations from extinction, our molecular results provide objective data for improving continuing in situ species survival plans and population management for this spectacular and emblematic reptile. [source] Evaluating the Conservation Mission of Zoos, Aquariums, Botanical Gardens, and Natural History MuseumsCONSERVATION BIOLOGY, Issue 1 2004BRIAN MILLER Many of these institutions emphasize a mission of conservation, and, undeniably, they do contribute directly to conservation education and conservation science. They present an exceptional opportunity for many urban residents to see the wonders of life, and they can contribute to education and habitat preservation. Because many collection-based institutions now hold a stated mission of conservation, we suggest eight potential questions to evaluate actions toward that mission: (1) Does conservation thought define policy decisions? (2) Is there sufficient organizational funding for conservation activities? (3) Is there a functional conservation department? (4) Does the institution advocate for conservation? (5) Do conservation education programs effectively target children and adults? (6) Does the institution contribute directly to habitat protection locally and internationally? (7) Do exhibits explain and promote conservation efforts? and (8) Do internal policies and activities protect the environment? These questions are offered as a place to begin discussion. We hope they will help employees and administrators of a collection-based institution (and citizens of the surrounding community) think about and support their institution's conservation activities. Public support and praise for institutions that are striving toward solutions for conservation problems and pressure on organizations that are moving more slowly toward a conservation orientation can help shift more resources toward saving nature. Resumen:,Las instituciones basadas en colecciones (zoológicos, acuarios, museos y jardines botánicos) exhiben vida silvestre. Por lo tanto, tienen una conexión especial con la naturaleza. Muchas de estas instituciones destacan una misión de conservación y, sin duda contribuyen directamente a la educación y la ciencia de la conservación. Brindan una oportunidad excepcional para que muchos residentes urbanos vean las maravillas de la vida, y pueden contribuir a la educación y a la preservación del hábitat. Debido a que en la actualidad muchas de las instituciones basadas en colecciones tienen una misión de conservación manifiesta, sugerimos ocho preguntas potenciales para evaluar las acciones hacia el cumplimiento de esa misión: (1) ¿Las consideraciones sobre la conservación definen las decisiones sobre políticas? (2) ¿Hay suficiente financiamiento organizacional para las actividades de conservación? (3) ¿Hay un departamento de conservación que funcione? (4) ¿La institución aboga por la conservación? (5) ¿Los programas de educación en conservación se enfocan eficientemente sobre niños y adultos? (6) ¿La institución contribuye directamente a la conservación del hábitat a nivel local e internacional? (7) ¿Las exhibiciones explican y promueven los esfuerzos de conservación? y (8) ¿Las políticas y actividades internas protegen el ambiente? Estas preguntas se ofrecen como un marco para iniciar la discusión. Esperamos que ayuden a los empleados y administradores de una institución basada en colecciones (y a los ciudadanos de la comunidad en la que se encuentra) a reflexionar sobre las actividades de conservación de su institución y lograr que las apoyen. El apoyo y el reconocimiento público de aquellas instituciones que pugnan por soluciones para los problemas de conservación y la presión sobre aquellas organizaciones que se están moviendo más lentamente hacia una orientación de conservación pueden ayudar a destinar más recursos para salvaguardar la naturaleza. [source] Dynamics of soil erosion rates and controlling factors in the Northern Ethiopian Highlands , towards a sediment budgetEARTH SURFACE PROCESSES AND LANDFORMS, Issue 5 2008Jan Nyssen Abstract This paper analyses the factors that control rates and extent of soil erosion processes in the 199 ha May Zegzeg catchment near Hagere Selam in the Tigray Highlands (Northern Ethiopia). This catchment, characterized by high elevations (2100,2650 m a.s.l.) and a subhorizontal structural relief, is typical for the Northern Ethiopian Highlands. Soil loss rates due to various erosion processes, as well as sediment yield rates and rates of sediment deposition within the catchment (essentially induced by recent soil conservation activities), were measured using a range of geomorphological methods. The area-weighted average rate of soil erosion by water in the catchment, measured over four years (1998,2001), is 14·8 t ha,1 y,1, which accounts for 98% of the change in potential energy of the landscape. Considering these soil loss rates by water, 28% is due to gully erosion. Other geomorphic processes, such as tillage erosion and rock fragment displacement by gravity and livestock trampling, are also important, either within certain land units, or for their impact on agricultural productivity. Estimated mean sediment deposition rate within the catchment equals 9·2 t ha,1 y,1. Calculated sediment yield (5·6 t ha,1 y,1) is similar to sediment yield measured in nearby catchments. Seventy-four percent of total soil loss by sheet and rill erosion is trapped in exclosures and behind stone bunds. The anthropogenic factor is dominant in controlling present-day erosion processes in the Northern Ethiopian Highlands. Human activities have led to an overall increase in erosion process intensities, but, through targeted interventions, rural society is now well on the way to control and reverse the degradation processes, as can be demonstrated through the sediment budget. Copyright © 2007 John Wiley & Sons, Ltd. [source] Using economic instruments to overcome obstacles to in situ conservation of biodiversityINTEGRATIVE ZOOLOGY (ELECTRONIC), Issue 1 2006Jeffrey A. McNEELY Abstract The leading direct cause of the loss of biodiversity is habitat alteration and disruption. If we are to address this cause directly, we need to find ways of changing the behavior of rural people. Experience has shown that this is done most effectively through the use of economic instruments, ranging from taxes that discourage over-exploitation, to direct payments for conservation activities carried out by rural land-owners or those occupying the land. In many parts of the world, governments provide incentives such as tax breaks to private land-owners. Other countries recognize specific use rights on particular parts of the land, enabling the land-owners to earn appropriate benefits. Since many protected areas have resident human populations, it is especially important that they be encouraged to contribute to the objectives of the protected area, and economic incentives offer an important way of doing so; they might, for example, be given employment in the protected area or in associated tourism activities. Direct payments to farmers for conserving watersheds is becoming increasingly popular, in both developed and developing countries. Improved conservation will require both removing perverse subsidies and developing a wide range of approaches for rewarding land-owners for biodiversity conservation activities. [source] Disturbance indicators and population decline of logged species in Mt. Elgon Forest, KenyaAFRICAN JOURNAL OF ECOLOGY, Issue 3 2010Joseph Hitimana Abstract Mount (Mt) Elgon forest in western Kenya is important for biodiversity, environmental protection and socio-economic development. Characterizing forest conditions is essential for evaluation of sustainable management and conservation activities. This paper covers findings of a study which determined and analysed indicators useful in monitoring disturbance levels in the Mt Elgon Forest. A systematic survey was carried out and covered 305 plots of 0.02 ha and 250 smaller nested regeneration plots along 10 belt transects that were distributed in five blocks within the moist lower montane forest type. Collected and analysed data include types of disturbance, tree species composition, abundance and logged species. Correlation breakdown among disturbance types revealed that, paths were indicators of the number of tree harvesting sites (rs =1.00, P < 0.01) and of de-vegetated areas through grass harvesting (rs = 0.90, P = 0.04). Solanum mauritianum Scop. was an indicator of old-charcoal production sites. Logging targeted 13 tree species and harvested trees with diameter at breast height above 20 cm. The most exploited species were Olea capensis L. and Deinbolia kilimandscharica Taub. All exploited species had low regeneration but tree regeneration was not an effective indicator of logging. Résumé La forêt du Mont Elgon, dans l'ouest du Kenya, est importante pour sa biodiversité, pour la protection de l'environnement et pour le développement socioéconomique. Il est essentiel de bien définir les caractéristiques de ses conditions pour pouvoir évaluer les activités de gestion durable et de conservation. Cet article reprend les résultats d'une étude qui a déterminé et analysé des indicateurs intéressants pour pouvoir suivre le niveau de perturbation dans la forêt du Mont Elgon. Une étude systématique fut menée, qui a couvert 305 parcelles de 0,02 ha et 250 plus petites parcelles de régénération incluses le long de 10 transects de ceinture, distribuées en cinq blocs dans la forêt humide de basse montagne. Les données récoltées et analysées comprennent les types de perturbation, la composition des espèces d'arbres, leur abondance et celles qui sont exploitées. Une rupture de corrélation parmi les types de perturbation a révélé que les sentiers étaient des indicateurs du nombre de sites oùétaient récoltés les arbres (rs = 1.00; P < 0.01) et de zones sans végétation à cause de la récolte de l'herbe (rs = 0.90; P < 0.04). Solanum mauritianum Scop. était un indicateur d'anciens sites de production de charbon de bois. Les coupes d'arbres concernaient 13 espèces dont le diamètre à hauteur de poitrine dépassait 20 cm. Les espèces les plus exploitées étaient Olea capensis L. et Deinbolia kilimandscharica Taub. Toutes les espèces exploitées avaient une faible régénération, mais une régénération d'arbres n'était pas un indicateur fiable d'anciennes coupes d'arbres. [source] REHABILITATION AND RELEASE OF MARINE MAMMALS IN THE UNITED STATES: RISKS AND BENEFITSMARINE MAMMAL SCIENCE, Issue 4 2007Michael Moore Abstract Rehabilitation of stranded marine mammals elicits polarized attitudes: initially done alongside display collections, but release of rehabilitated animals has become more common. Justifications include animal welfare, management of beach use conflict, research, conservation, and public education. Rehabilitation cost and risks have been identified that vary in degree supported by data rather than perception. These include conflict with fisheries for resources, ignorance of recipient population ecology, poor understanding of long-term survival, support of the genetically not-so-fit, introduction of novel or antibiotic-resistant pathogens, harm to human health, and cost. Thus facilities must balance their welfare appeal against public education, habitat restoration, human impact reduction, and other conservation activities. Benefits to rehabilitating marine mammals are the opportunity to support the welfare of disabled animals and to publish good science and so advance our understanding of wild populations. In specific cases, the status of a population may make conservation the main reason for rehabilitation. These three reasons for rehabilitation lead to contrasting, and sometimes conflicting, management needs. We therefore outline a decision tree for rehabilitation managers using criteria for each management decision, based on welfare, logistics, conservation, research, and funding to define limits on the number of animals released to the wild. [source] Spatial Modeling of Wetland Condition in the U.S. Prairie Pothole RegionBIOMETRICS, Issue 2 2002J. Andrew Royle Summary. We propose a spatial modeling framework for wetland data produced from a remote-sensing-based waterfowl habitat survey conducted in the U.S. Prairie Pothole Region (PPR). The data produced from this survey consist of the area containing water on many thousands of wetland basins (i.e., prairie potholes). We propose a two-state model containing wet and dry states. This model provides a concise description of wet probability, i.e., the probability that a basin contains water, and the amount of water contained in wet basins. The two model components are spatially linked through a common latent effect, which is assumed to be spatially correlated. Model fitting and prediction is carried out using Markov chain Monte Carlo methods. The model primarily facilitates mapping of habitat conditions, which is useful in varied monitoring and assessment capacities. More importantly, the predictive capability of the model provides a rigorous statistical framework for directing management and conservation activities by enabling characterization of habitat structure at any point on the landscape. [source] Calibrating conservation: new tools for measuring successCONSERVATION LETTERS, Issue 4 2008Valerie Kapos Abstract Conservation practitioners, policy makers, and donors agree that there is an urgent need to identify which conservation approaches are most likely to succeed in order to use more effectively the limited resources available for conservation. While recently developed standards of good practice in conservation are helpful, a framework for evaluation is needed that supports systematic analysis of conservation effectiveness. A conceptual framework and scorecard developed by the Cambridge Conservation Forum help to address common constraints to evaluating conservation success: unclear objectives, ineffective information management, the long time frames of conservation outcomes, scarcity of resources for evaluation, and lack of incentives for such evaluation. For seven major categories of conservation activity, the CCF tools help clarify conservation objectives and provide a standardized framework that is a useful basis for managing information about project outcomes and existing conservation experience. By identifying key outcomes that can predict conservation success and can be assessed in relatively short time frames, they help to make more efficient use of scarce monitoring and evaluation resources. With wide application, the CCF framework and evaluation tool can provide a powerful platform for drawing on the experience of past and ongoing conservation projects to identify quantitatively factors that contribute to conservation success. [source] Potential impacts of climate change on Sub-Saharan African plant priority area selectionDIVERSITY AND DISTRIBUTIONS, Issue 6 2006Colin J. McClean ABSTRACT The Global Strategy for Plant Conservation (GSPC) aims to protect 50% of the most important areas for plant diversity by 2010. This study selects sets of 1-degree grid cells for 37 sub-Saharan African countries on the basis of a large database of plant species distributions. We use two reserve selection algorithms that attempt to satisfy two of the criteria set by the GSPC. The grid cells selected as important plant cells (IPCs) are compared between algorithms and in terms of country and continental rankings between cells. The conservation value of the selected grid cells are then considered in relation to their future species complement given the predicted climate change in three future periods (2025, 2055, and 2085). This analysis uses predicted climate suitability for individual species from a previous modelling exercise. We find that a country-by-country conservation approach is suitable for capturing most, but not all, continentally IPCs. The complementarity-based reserve selection algorithms suggest conservation of a similar set of grid cells, suggesting that areas of high plant diversity and rarity may be well protected by a single pattern of conservation activity. Although climatic conditions are predicted to deteriorate for many species under predicted climate change, the cells selected by the algorithms are less affected by climate change predictions than non-selected cells. For the plant species that maintain areas of climatic suitability in the future, the selected set will include cells with climate that is highly suitable for the species in the future. The selected cells are also predicted to conserve a large proportion of the species richness remaining across the continent under climate change, despite the network of cells being less optimal in terms of future predicted distributions. Limitations to the modelling are discussed in relation to the policy implications for those implementing the GSPC. [source] | ||||||||||