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International Conference on Climate Change and Coral Reef Conservation: Aiming for a beautiful island in symbiosis with environment. Report 29 - 30 June 2013

Climate Change Resilience, BRB

Towards Greener Taxes and Subsidies in Pacific Island Countries and Territories (PICTs)

Watkins, Emma

The Restoration of Ecosystem Services and Adaptation to Climate Change (RESCCUE) project is a regional project implemented by the Pacific Community. The overall goal of RESCCUE is to contribute to increasing the resilience of Pacific Island Countries and Territories (PICTs) in the context of global changes. To this end RESCCUE aims at supporting adaptation to climate change (ACC) through integrated coastal management (ICM), resorting especially to economic analysis and economic and financial mechanisms. The RESCCUE project operates both at the regional level and in one to two pilot sites in four countries and territories: New Caledonia, Vanuatu, Fiji and French Polynesia. RESCCUE is funded primarily by the French Development Agency (AFD) and the French Global Environment Facility (FFEM) for a duration of five years (01/01/2014 to 31/12/2018). The project budget is 8.5 million Euros from AFD/FFEM. It is structured around five components: Component 1: Integrated coastal management supporting ICM implementation through ICM plans, ICM committees, and management activities concerning both terrestrial and marine ecosystems, capacity building and income generating activities. Component 2: Economic analysis using economic analysis to support coastal management and policy decisions. Component 3: Economic and financial mechanisms setting up economic and financial mechanisms to generate additional and sustainable funding for ICM: review of options (payment for ecosystem services, taxes, user fees, trust funds, quota markets, offsets, labels); feasibility studies; implementation; monitoring. Component 4: Capitalization, communication, dissemination of project outcomes in the Pacific going beyond pilot sites activities in order to have impacts at the regional level, by fostering experience sharing between sites, cross-sectoral expertise, and communication and dissemination of the project outcomes. Component 5: Project management implementing and coordinating the project, by providing technical assistance, organizing local and regional steering committees, conducting audits and evaluations (mid-term and ex-post), etc. The report is to present interesting illustrative examples. The examples were selected based on the scale of their (potential) environmental, economic and social impacts, and their relevance to the PICT region, to ensure they are representative of the broader region and any lessons learned from an example in one location could be transferable more widely. This report should be seen as a contribution to the future analysis of taxes and subsidies (and their reform) that can help to meet a range of challenges facing the PICT region. It aims to contribute to guiding the region towards greener taxes and subsidies, by building the knowledge and capacity of policy-makers and stakeholders and offering some ideas for the future further greening of instruments to support the achievement of environmental objectives.

The Ecology of Rodents in the Tonga Islands

Available Online

Twibell, John

The influence on crop damage of Rattus norvegicus, Rattus rattus, and the native Polynesian rat, Rattus exulans, was studied during the establishment of a rat control program for the Tongan Department of Agriculture in 1969. This was the first long-term study of Tongan rodents. Previous scientific literature on Tongan mammals is very sparse. The Kingdom of Tonga, or Friendly Islands, consists of approximately 150 small islands with a combined area of about 256 square miles at lat 21 0 S. The majority of these islands are composed of raised coral limestone ; however, there is a row of six volcanic islands on Tonga's western border. Tongatapu, the location of the government center, is the largest and most important island. The Ha'apai island group lies 80 miles north of Tongatapu, and 150 miles north is the Vava'u group. Fiji is 420 nautical miles east and Samoa is 480 miles north. The climate is tropical and is influenced seasonally by trade winds. Since Captain Cook's first visit in 1773, Western civilization has brought trade, missionaries, and perhaps rats to Tonga. With this shipping came numerous introduced plants and animals. The arrival dates for the common rat, Rattus norvegicus, and the "European" roof rat, Rattus rattus, are not known, but are believed to be more recent, probably since the increase of regular shipping trade and the construction of wharves. Presently rodents account for approximately 20 percent of the agricultural losses and $50,000 worth of economic loss each year (Twibell, unpublished). This is a conservative estimate based on damage counts and observation. In some areas rats destroy or damage up to 50 percent of the coconuts, which represent the main economic crop in Tonga. THE INFLUENCE on crop damage of Rattus norvegicus, Rattus rattus, and the native Polynesian rat, Rattus exulans, was studied during the establishment of a rat control program for the Tongan Department of Agriculture in 1969. This was the first long-term study of Tongan rodents. Previous scientific literature on Tongan mammals is very sparse. The Kingdom of Tonga, or Friendly Islands, consists of approximately 150 small islands with a combined area of about 256 square miles at lat 21 0 S. The majority of these islands are composed of raised coral limestone ; however, there is a row of six volcanic islands on Tonga's western border. Tongatapu, the location of the government center, is the largest and most important island. The Ha'apai island group lies 80 miles north of Tongatapu, and 150 miles north is the Vava'u group. Fiji is 420 nautical miles east and Samoa is 480 miles north. The climate is tropical and is influenced seasonally by trade winds. Since Captain Cook's first visit in 1773, Western civilization has brought trade, missionaries, and perhaps rats to Tonga. With this shipping came numerous introduced plants and animals. The arrival dates for the common rat, Rattus norvegicus, and the "European" roof rat, Rattus rattus, are not known, but are believed to be more recent, probably since the increase of regular shipping trade and the construction of wharves. Presently rodents account for approximately 20 percent of the agricultural losses and $50,000 worth of economic loss each year (Twibell, unpublished). This is a conservative estimate based on damage counts and observation. In some areas rats destroy or damage up to 50 percent of the coconuts, which represent the main economic crop in Tonga.

Vector and pest control

Available Online

The importance of vector and pest control in disasters and emergencies

Christmas Island National Park - Idependent scientific research shows that crazy ant bait does not acccumulate in Christmas Island's environment

Available Online

Cites independent study by CESAR Consultants confirms that Fipronil ant bait has not accumulated in the envrionment on Christmas Island for the control of yellow crazy ant.

Biological control of Chromolaena odorata in Papua New Guinea (CP/1996/091)

Available Online

Day, Michael

The main outcome of the project was the control or significant reduction of chromolaena in most provinces of PNG. Areas that were once monostands of chromolaena have been converted back into subsistence farms, and plantations in which chromolaena was the main understorey species are now clear of the weed. This outcome was the result of the primary outputs of the project: (a) knowledge of the extent of the chromolaena problem and its impact of the livelihoods of smallholders, (b) an understanding of effective biocontrol agents and (c) significant capacity built in biocontrol of weeds.

Cane toad strategy for Western Australia 2014 to 2019

Available Online

The Government of Western Australia, Department of Parks and Wildlife

Cane toads introduced to Queensland in 1935, are major environmental pests in Western Australia, having arrived here in February 2009. The Liberal National Government released a 10-year Cane Toad Strategy for Western Australia in 2009. Over the first five years of the strategy, much has been achieved and the government has invested more than $7.8 million in on ground activities and research to help control the spread of can toads. With a range of stakeholders, including community groups, universities, the Australian Government, local shires, Indigenous groups and others, the State of Government has implemented many new can toad management programs including a field-based cane toad surveillance and response team, strengthened quarantine measures, a free-call hotline to report cane toad sightings and cane toad drop off points. Major biological survey work has provided benchmark information on important island wildlife populations that need priority protection from cane toad. Biological controls are also being researched for the survival of native wildlife species in the short and medium terms and management of cane toads in the longer term. Educating the community has prevented new populations from establishing in Perth and elsewhere. Detector dog specially trained to sniff out cane toads is a proactive measure to stem the spread of this noxious pest. This is a review and update on the original 10 year strategy to review and update the strategy to reflect progress in implementation, the current status of cane toads in WA and results of ongoing research, and to refocus its aims and objectives. Cost effective activities and an integrated approach with other initiatives across WA, such as the $81.5 million Kimberley Science and Conservation Strategy, are required. The revised Cane Toad Strategy for Western Australia 2014-2019 will ensure the available information is used to inform Was continued management of cane toads.

Priority sites for conservation in the Cook Islands: key biodiversity areas and important bird areas.

Available Online

The Key Biodiversity Areas and Important Bird Areas (KBA's & IBA's) approach is a simple, effective means of implementing the protected areas elements of the Convention of Biological Diversity (CBD). KBAs and IBAs are places of international importance for the conservation of biological diversity through protected areas and other governance mechanisms.

Global rise in emerging alien species results form increased accessibility of new source pools

Biodiversity Conservation, BRB

Available Online

Alain, Roques

Alexander, Mosena

Andrew M, Liebhold

Barbara, Tokarska-Guzik

Benoit, Guenard

Bernd, Blasius

Bernd, Lenzner

Cesar, Capinha

Charlotte, E Causton

Darren, F Ward

David, Pearman

Dietmar, Moser

Eckehard, G Brockerhoff

Ellie, E Dyer

Evan, PEconomo

Franz, Essl

Giuseppe, Brundu

Hanno, Seebens

Heinke, Jager

Helen E, Roy

Ingolf, Kuhn

Jan, Pergl

John, Kartesz

Jonathan, M Jeschke

Julissa, Rojas-Sandoval

Katerina, Stjerova

Kevin Walker

Laura, Celesti-Grapow

Marc, Kenis

Margarita, Arianoutsou

Mark, van Kleunen

Marten, Winter

Michael, Ansong

Misako, Nishino

Nicol, Fuentes

Petr, Pysek

Philip, E Hulme

Piero, Genovesi

Riccardo, Scalera

Shyama, Pagad

Silvia, Rossinelli

Stefan, Dullinger

Stefan, Schindler

Stephanie, Rorke

Sven, Bacher

Takehiko, Yamanaka

Tim M, Blackburn

Wayne, Dawson

Wolfgang, Nentwig

Wolfgang, Rabitsch

Our ability to predict the identity of future invasive alien species is largely based upon knowledge of prior invasion history. Emerging alien speciesthose never encountered as aliens beforetherefore pose a significant challenge to biosecurity interventions worldwide. Understanding their temporal trends, origins, and the drivers of their spread is pivotal to improving prevention and risk assessment tools. Here, we use a database of 45,984 first records of 16,019 established alien species to investigate the temporal dynamics of occurrences of emerging alien species worldwide. Even after many centuries of invasions the rate of emergence of new alien species is still high: One-quarter of first records during 20002005 were of species that had not been previously recorded anywhere as alien, though with large variation across taxa. Model results show that the high proportion of emerging alien species cannot be solely explained by increases in well-known drivers such as the amount of imported commodities from historically important source regions. Instead, these dynamics reflect the incorporation of new regions into the pool of potential alien species, likely as a consequence of expanding trade networks and environmental change. This process compensates for the depletion of the historically important source species pool through successive invasions. We estimate that 116% of all species on Earth, depending on the taxonomic group, qualify as potential alien species. These results suggest that there remains a high proportion of emerging alien species we have yet to encounter, with future impacts that are difficult to predict.

No saturation in the accumulation of alien species worldwide

Available Online

Hanno Seebens et al

Although research on human-mediated exchanges of species has substantially intensified during the last centuries, we know surprisingly little about temporal dynamics of alien species accumulations across regions and taxa. Using a novel database of 45,813 first records of 16,926 established alien species, we show that the annual rate of first records worldwide has increased during the last 200 years, with 37% of all first records reported most recently (19702014). Inter-continental and inter-taxonomic variation can be largely attributed to the diaspora of European settlers in the nineteenth century and to the acceleration in trade in the twentieth century. For all taxonomic groups, the increase in numbers of alien species does not show any sign of saturation and most taxa even show increases in the rate of first records over time. This highlights that past efforts to mitigate invasions have not been effective enough to keep up with increasing globalization.

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