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4. Interacting effects of change in climate, human population, land use, and water use on biodiversity and ecosystem services

Author

Elmhagen, Bodil, Destouni, Georgia, Angerbjörn, Anders, Borgström, Sara, Boyd, Emily, Cousins, Sara A. O., Dalén, Love, Ehrlén, Johan, Ermold, Matti, Hambäck, Peter A., Hedlund, Johanna, Hylander, Kristoffer, Jaramillo, Fernando, Lagerholm, Vendela K., Lyon, Steve W., Moor, Helen, Nykvist, Björn, Pasanen-Mortensen, Marianne, Plue, Jan, Prieto, Carmen, van der Velde, Ype, and Lindborg, Regina

Published
2015

11. Viltets ekosystemtjänster : En kunskapssammanställning till stöd för värdering och förvaltning

Author

Widemo, Fredrik, Elmhagen, Bodil, and Liljebäck, Niklas

Subjects
ekosystemtjänster, stora rovdjur, predation, klövvilt, Miljövetenskap, Environmental Sciences
Abstract

Det finns en mängd mer eller mindre strikta definitioner och indelningar av ekosystemtjänster. Vi föredrar att inte göra någon åtskillnad mellan processer som levererar nyttigheter och de nyttigheter som produceras. I rapporten ser vi därmed exempelvis viltkött, eller glädjen över att se en björn, som ekosystemtjänster, inte som nyttigheter som är ett resultat av ekosystemtjänster. Det stora värdet med konceptet ekosystemtjänster ligger i att olika värden identifieras, samt insikten att olika tjänster ofta begränsar varandra. Det går följaktligen inte att maximera alla tjänster, utan förvaltning av naturresurser ur ett ekosystemtjänstperspektiv bygger på accepterade avvägningar mellan identifierade tjänster. Människan är en del av ekosystemen. Leveransen av viltets ekosystemtjänster påverkas i stor utsträckning av landskapet och därmed av mänsklig markanvändning. För att värdera och förvalta viltets ekosystemtjänster är det nödvändigt att känna till hur viltet påverkar landskapet, hur landskapet och markanvändningen påverkar viltet samt hur olika avvägningar ger återkopplingar till ekosystemen. Ekosystemtjänster samskapas genom komplicerade samspel mellan biologisk mångfald och ekologiska processer å ena sidan och människans sociala system, aktiviteter och investeringar å andra sidan. Ofta beror problem med att omsätta ekosystemtjänstkonceptet i praktisk förvaltning på svårigheter att samtidigt hantera försörjande (materiella) och kulturella (immateriella) tjänster, där de senare ofta inte kan värdesättas kvantitativt. Det gör det svårt att finna goda avvägningar mellan försörjande och kulturella tjänster. Det totala värdet av de kulturella tjänsterna i landskapet överstiger ofta det totala värdet av alla de försörjande tjänsterna. Det gäller även värdet av viltets ekosystemtjänster. Olika intressegrupper, och individer inom intressegrupper, värderar ofta samma ekosystemtjänst olika. Förvaltning av naturresurser ur ett ekosystemtjänstperspektiv kräver dialog mellan aktörer om identifiering, värdering och förvaltning av ekosystemtjänster. Strikta, exkluderande definitioner och fokus på kvantitativ, monetär värdering försvårar ofta processen och tillämpningen; vi förordar inkluderande förhållningssätt, även om det försvårar eller omöjliggör monetär värdering och ekonomiska kostnads-nyttoanalyser. Stammarna av klövvilt, storfåglar (gäss, trana och sångsvan) och stora rovdjur har vuxit starkt under de senaste hundra åren till följd av framgångsrik förvaltning. Dagens starka stammar levererar stora ekosystemtjänster direkt och indirekt (Figur 1), men kan även leverera ‑otjänster. Detta skapar konflikter och behov av avvägningar mellan olika intressen inom samförvaltningen av vilt, andra naturresurser och upplevelsevärden. Betande klövvilt och betande storfåglar har viktiga strukturerande effekter på vegetationen. Låga och medelhöga betestryck har generellt positiva effekter på den biologiska mångfalden, särskilt om betestrycket varierar i tid och rum på landskapsnivå. Avsaknad av bete kan precis som höga betestryck ha negativa effekter på den biologiska mångfalden, genom att det ger minskad variation av livsmiljöer. De stora rovdjuren levererar stora kulturella ekosystemtjänster, men har ofta begränsad populationsreglerande effekt på klövvilt i Sverige eftersom klövviltsstammarna begränsas genom jakt. Jägarna kompenserar dessutom för de stora rovdjurens predation genom minskat jaktuttag. Det gör att rovdjuren kan begränsa ekosystemtjänsterna från jakt på klövvilt mer eller mindre kraftigt, men samtidigt har begränsad inverkan på klövviltstammarnas storlek. Det går inte att jämföra de stora rovdjurens ekologiska roll utan jakt, exempelvis i nationalparker, med effekter i normala svenska produktionslandskap. Kvantitativa värderingar av psykosociala effekter av rovdjur saknas i stor utsträckning; innan både positiva och negativa effekter studerats är det svårt eller omöjligt att finna goda avvägningar. Generellt saknas kvantitativa data för många kulturella ekosystemtjänster från vilt, som exempelvis upplevelsevärden av att se vilt för allmänhet och turister. Skador från vilt är ofta ojämnt fördelade i tid och rum. Genomsnittliga nationella och regionala skadenivåer kan därmed vara vilseledande när det gäller vilka utmaningar enskilda brukare och förvaltningen ställs inför. Viltförvaltningen måste därmed utgå från lokala förhållanden för att åtgärder ska kunna skräddarsys efter upplevda behov och bidra till god måluppfyllnad, exempelvis när det gäller att hantera omfattande, men lokala, skador. Lokal delaktighet ökar samtidigt sannolikheten att nå acceptans för avvägningar mellan konkurrerande ekosystemtjänster. Nödvändiga data för att göra en komplett samhällsekonomisk analys av ekosystemtjänster och -otjänster från vilt saknas idag. Vi har medvetet avstått från att jämföra de ekonomiska värden som trots allt finns i en kostnadsnyttoanalys, eftersom en sådan inte skulle inkludera alla relevanta ekosystemtjänster. Eventuella avvägningar baserade på en sådan analys skulle därmed inte inkludera alla tjänster eller intressen, och skulle därmed riskera att öka snarare än minska mängden konflikter om förvaltningsbeslut och -åtgärder baseras på ofullständiga beslutsunderlag. Jaktlagen uttrycker sedan revideringen 1987 ett gemensamt ansvar mellan jakträttshavare och markägare att förvalta viltet utifrån enskilda och allmänna intressen. Lagstiftningen bygger på grundprinciperna inom ekosystemtjänstkonceptet, och har bidragit till att det idag finns formaliserade arenor för att finna avvägningar mellan ekosystemtjänster på olika nivåer. Viltförvaltningen ligger därmed långt framme i omställningen mot att förvalta naturresurser utifrån ett ekosystemtjänstperspektiv, i enlighet med fattade riksdagsbeslut. Här finns generella lärdomar att dra för den övriga förvaltningen. För att nå längre mot en adaptiv förvaltning av vilt med accepterade avvägningar mellan olika ekosystemtjänster och -otjänster krävs ytterligare fokus på underifrånperspektiv, delaktighet och breda analyser. Det är nödvändigt att viltets reglerande ekosystemtjänster, kulturella ekosystemtjänster respektive strukturerande effekter på ekosystemen inkluderas i beslutsunderlagen i större utsträckning än idag. För vilt som rör sig över stora områden måste lokal förvaltning kombineras med regional, nationell och internationell samverkan. There are many more or less strict ways to define ecosystem services. We have chosen not to make a distinction between the processes delivering the benefits and the actual benefits. For example, we regard both game meat and the positive experience of seeing a bear as ecosystem services in the report, not as benefits from ecosystem services. We feel that the main benefit of the concept of ecosystem services is the focus on identifying all relevant contributions to people from the ecosystems and the realisation that ecosystem services often limit one another. Thus, it is not possible to maximise all ecosystem services simultaneously. Adopting an ecosystem services approach to managing natural resources requires finding accepted trade-offs between relevant services. We humans are part of the ecosystem. The delivery of ecosystem services is influenced greatly by landscape characteristics and thus by land use and other human activities. In order to evaluate and manage ecosystem services from game, it is necessary to know how the landscape is influencing the game, how the game is affecting the landscape and how land use (including for example hunting) influences these processes. This includes taking complex feedback loops into account. In fact, virtually all ecosystem services are co- produced by an interplay between biodiversity and ecological processes on the one hand and human activities, investments and social context on the other hand. Assigning monetary values to ecosystem services can be convenient for comparing different values in a common currency. This may facilitate finding trade-offs between competing services and interests. Unfortunately, it may often be difficult, impossible or even deemed inappropriate to assign quantitative values to some cultural services. This is especially true for assigning monetary values to for example feelings and beliefs. Thus, operationalization of the ecosystem services concept is often hampered by the difficulties of handling provisioning (material) and cultural (immaterial) services simultaneously. To make things more complicated, the total value of cultural ecosystem services in a landscape often exceeds the total value of provisioning services from agriculture or forestry, in cases where monetary values have been assigned. This holds true for ecosystem services from game as well. Thus, the services deemed most important by stakeholders are especially difficult to include in quantitative cost-benefit analyses. Often, different stakeholders, and individuals within stakeholder groups, will value ecosystem services differently. Management of natural resources from an ecosystem services perspective requires dialogue between relevant parties about identifying, evaluating and managing ecosystem services. Strict, excluding definitions on what constitutes a service, and focus on determining monetary values, may exclude relevant services and stakeholders from the analyses and negotiations. We advocate broad, inclusive approaches, even if this makes it difficult or impossible to assign monetary values to all services, in order to generate acceptance for the trade-offs and reduce conflict. The populations of ungulates, large grazing birds and large carnivores have increased dramatically over the last century in Scandinavia, as a result of successful conservation and sustainable management. Today’s strong populations of game deliver substantial ecosystem services, but may also yield disservices e.g. in the form of damage to crops and to regenerating forests. This creates conflict and necessitates trade-offs between interests through co-management of game and other natural resources, while for example taking recreational values into account. Damage from game to crops and to regenerating forests are often unevenly distributed in time and, particularly, space. Thus, average levels of damage at regional and national levels can be misleading for discussing the challenges facing individual farmers and forest owners. Game management must have a bottom-up approach, where decisions depend on local conditions, in order to manage local problems and simultaneously enable us to utilise the ecosystem services from game to even a fraction of its potential. Furthermore, a bottom up approach increases the probability to find acceptance for trade-offs between competing ecosystem services by those directly affected. Grazing ungulates and birds have important structuring impacts on the vegetation and the ecosystems. In general, intermediate grazing pressures have positive effects on biodiversity, especially if the grazing pressures vary in space and in time. By contrast, both low and high grazing pressures may have negative consequences for biodiversity, by limiting the variation in habitats. Taxa may be affected in different ways, but the overall effect on biodiversity from grazing at today’s ungulate densities is positive in Scandinavia. In forests, ungulates are partly filling the ecological niche previously occupied by livestock, thus maintaining biodiversity that was favoured by traditional land use previously. The large carnivores deliver substantial cultural ecosystem services, but have limited regulating effect on the populations of ungulates in Scandinavia. Population size of ungulates is mainly limited through hunting and the harvest rate is similar to the predation rate of large carnivores in areas elsewhere without hunting. Thus, large carnivores may have substantial effects on the opportunity to hunt and ecosystem services from hunting, but will have small effects on ungulates as hunters compensate for the predation by decreased hunting. The ecological role of large carnivores in Scandinavian ‘production landscapes’ cannot be compared to the situation in national parks without hunting. Largely, quantitative evaluations of the psychosocial effects of large carnivores are lacking. It will not be possible to make a complete assessment of the ecosystem services from large carnivores until both the negative and the positive effects have been studied. In general, quantitative data is scant for many of the cultural ecosystem services from game, such as e.g. recreational values of observing game for the public or for tourists. Thus, the data required for a complete cost-benefit analysis of the ecosystem services, and disservices, from game are not available yet. We have refrained from comparing those monetary values that are available, as this analysis would be incomplete. Thus, trade-offs from such an analysis would not include all relevant services, or stakeholders’ interests, and may result in more rather than less conflict over management decisions and actions. The Swedish Hunting Act was revised in 1987, right after the exponential increase in the moose population had been halted through increased hunting pressure. The legislation rests on several of the principles that later have been included in the ecosystem services concept: landowners and hunters have a shared responsibility both to limit game populations through hunting and to support game populations through direct actions. Furthermore, both private and public interests have to be taken into account in management, when striking a balance between ecosystem services from game and other ecosystem services. The principles of shared responsibility and trade-offs between different interests have resulted in the establishment of formalised platforms for finding accepted trade-offs between stakeholder interests from a local to a national level of game management. While conflicts still occur over trade-offs, the game management is ahead of much of the Swedish management of natural resources when it comes to implementing the ecosystem services concept. In the future, more focus should be devoted to maintaining a bottom-up perspective, while performing broad analyses and seeking inclusive trade-offs based on all relevant ecosystem services. Regulating and cultural ecosystem services, as well as structuring effects of game on ecosystems, must be included in the basis of analyses and management decisions when appropriate. Furthermore, local management must be combined with cooperation at regional, national and international levels for game that moves over large areas.

Published
2019

12. The fluctuating world of a tundra predator guild : bottom‐up constraints overrule top‐down species interactions in winter

Author

Stoessel, Marianne, Elmhagen, Bodil, Vinka, Mikael, Hellström, Peter, and Angerbjörn, Anders

Subjects
bottom-up versus top-down effect, seasonality, arctic ecosystems, Biologiska vetenskaper, Biological Sciences
Abstract

Global warming is predicted to change ecosystem functioning and structure in Arctic ecosystems by strengthening top‐down species interactions, i.e. predation pressure on small herbivores and interference between predators. Yet, previous research is biased towards the summer season. Due to greater abiotic constraints, Arctic ecosystem characteristics might be more pronounced in winter. Here we test the hypothesis that top‐down species interactions prevail over bottom‐up effects in Scandinavian mountain tundra (Northern Sweden) where effects of climate warming have been observed and top‐down interactions are expected to strengthen. But we test this ‘a priori’ hypothesis in winter and throughout the 3–4 yr rodent cycle, which imposes additional pulsed resource constraints. We used snowtracking data recorded in 12 winters (2004–2015) to analyse the spatial patterns of a tundra predator guild (arctic fox Vulpes lagopus, red fox Vulpes vulpes, wolverine Gulo gulo) and small prey (ptarmigan, Lagopus spp). The a priori top‐down hypothesis was then tested through structural equation modelling, for each phase of the rodent cycle. There was weak support for this hypothesis, with top‐down effects only discerned on arctic fox (weakly, by wolverine) and ptarmigan (by arctic fox) at intermediate and high rodent availability respectively. Overall, bottom‐up constraints appeared more influential on the winter community structure. Cold specialist predators (arctic fox and wolverine) showed variable landscape associations, while the boreal predator (red fox) appeared strongly dependent on productive habitats and ptarmigan abundance. Thus, we suggest that the unpredictability of food resources determines the winter ecology of the cold specialist predators, while the boreal predator relies on resource‐rich habitats. The constraints imposed by winters and temporary resource lows should therefore counteract productivity‐driven ecosystem change and have a stabilising effect on community structure. Hence, the interplay between summer and winter conditions should determine the rate of Arctic ecosystem change in the context of global warming.

Published
2019

13. The role of wildlife tourism in conservation of endangered species : Implications of safari tourism for conservation of the Arctic fox in Sweden

Author

Larm, Malin, Elmhagen, Bodil, Granquist, Sandra M., Brundin, Erika, Angerbjörn, Anders, Larm, Malin, Elmhagen, Bodil, Granquist, Sandra M., Brundin, Erika, and Angerbjörn, Anders

Abstract

There are both positive and negative impacts on wildlife associated with wildlife tourism. In Sweden, the endangered Arctic fox is subject to a growing tourist interest. In the Helags mountain region there are guided Arctic fox safari tours that provide visitors with information about the Arctic fox. A survey of five separate groups of visitors in the region revealed that knowledge about the status of Arctic foxes and awareness of the behavioral guidelines for Arctic fox encounters improved after participation in a safari tour and with increasing Arctic fox interaction. We propose a schematic model summarizing the diverse ways in which wildlife tourism affects wildlife and their relative importance for conservation. The Arctic fox population in Sweden is small and sensitive to disturbance, but the positive impacts of Arctic fox tourism seem to compensate for the negative and contribute to their conservation under the current level of tourism pressure.

Published
2018
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14. Effects of female body mass and climate on reproduction in northern wild boar

Author

Bergqvist, Göran, Paulson, Sam, Elmhagen, Bodil, Bergqvist, Göran, Paulson, Sam, and Elmhagen, Bodil

Abstract

Mammalian life history strategies depend on climate conditions. Hence, reproductive parameters may vary regionally, and knowledge on such patterns are important for sustainable management. Wild boar research has been biased towards south and central Europe. Here we investigate the effects of mother's carcass mass, season and climate (summer temperature and precipitation as well as January temperature) on pregnancy rate and litter size in 601 free-ranging female wild boar from hemiboreal Sweden, close to the north border of wild boar distribution range in Europe. Pregnancy rate was on average 33.4 +/- 1.94% (mean +/- SE), whereas average litter size of pregnant females was 4.7 +/- 0.12. Pregnancy rate was highest during the seasonal reproduction peak in winter and spring, and both pregnancy rate and litter size increased significantly with increasing female body mass. The probability of a female being pregnant exceeded 50% when carcass mass exceeded 58 kg, equivalent to a live mass of 113 kg, and litter size increased by one for each 16 kg increase in female carcass mass. We found no significant effects of temporal variations in climate, and suggest that such variations were not sufficiently large to affect wild boar reproduction. Alternatively, the reproductive strategy of wild boar may be adjusted to prevailing regional climate conditions. In that case, other life history traits, such as mortality, may be more sensitive to short-term climate fluctuations. Wild boar management needs to take temporal variations in reproduction, as well as in resource availability, into consideration when deciding on prudent management actions.

Published
2018
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15. Spatial distribution in Norwegian lemming Lemmus lemmus in relation to the phase of the cycle

Author

Le Vaillant, Maryline, Erlandsson, Rasmus, Elmhagen, Bodil, Hörnfeldt, Birger, Eide, Nina E., Angerbjörn, Anders, Le Vaillant, Maryline, Erlandsson, Rasmus, Elmhagen, Bodil, Hörnfeldt, Birger, Eide, Nina E., and Angerbjörn, Anders

Abstract

Competition between individuals of the same or different species affects spatial distribution of organisms at any given time. Consequently, a species geographical distribution is related to population dynamics through density-dependent processes. Small Arctic rodents are important prey species in many Arctic ecosystems. They commonly show large cyclic fluctuations in abundance offering a potential to investigate how landscape characteristics relates to density-dependent habitat selection. Based on long-term summer trapping data of the Norwegian lemming (Lemmus lemmus) in the Scandinavian Mountain tundra, we applied species distribution modeling to test if the effect of environmental variables on lemming distribution changed in relation to the lemming cycle. Lemmings were less habitat specific during the peak phase, as their distribution was only related to primary productivity. During the increase phase, however, lemming distribution was, in addition, associated with landscape characteristics such as hilly terrain and slopes that are less likely to get flooded. Lemming habitat use varied during the cycle, suggesting density-dependent changes in habitat selection that could be explained by intraspecific competition. We believe that the distribution patterns observed during the increase phase show a stronger ecological signal for habitat preference and that the less specific habitat use during the peak phase is a result of lemmings grazing themselves out of the best habitat as the population grows. Future research on lemming winter distribution would make it possible to investigate the year around strategies of habitat selection in lemmings and a better understanding of a fundamental actor in many Arctic ecosystems., Svenska fjällrävsprojektet

Published
2018
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16. Homage to Hersteinsson and Macdonald: climate warming and resource subsidies cause red fox range expansion and Arctic fox decline

Author

Elmhagen, Bodil, Berteaux, Dominique, Burgess, Robert. M., Ehrich, Dorothee, Gallant, Daniel, Henttonen, Heikki, Ims, Rolf Anker, Killengreen, Siw Turid, Niemimaa, Jukka, Norén, Karin, Ollila, Tuomo, Rodnikova, Anna Y., Sokolov, Aleksandr A., Sokolova, Natasha A., Stickney, Alice A., and Angerbjörn, Anders

Subjects
mesopredator release, lcsh:GE1-350, lcsh:Oceanography, resource subsidy, Vulpes lagopus, VDP::Mathematics and natural science: 400::Zoology and botany: 480, Climate change, Vulpes vulpes, lcsh:GC1-1581, range shift, lcsh:Environmental sciences, VDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480
Abstract

Source at http://doi.org/10.1080/17518369.2017.1319109 Climate change can have a marked effect on the distribution and abundance of some species, as well as their interspecific interactions. In 1992, before ecological effects of anthropogenic climate change had developed into a topical research field, Hersteinsson and Macdonald published a seminal paper hypothesizing that the northern distribution limit of the red fox (Vulpes vulpes) is determined by food availability and ultimately climate, while the southern distribution limit of the Arctic fox (Vulpes lagopus) is determined by interspecific competition with the larger red fox. This hypothesis has inspired extensive research in several parts of the circumpolar distribution range of the Arctic fox. Over the past 25 years, it was shown that red foxes can exclude Arctic foxes from dens, space and food resources, and that red foxes kill and sometimes consume Arctic foxes. When the red fox increases to ecologically effective densities, it can cause Arctic fox decline, extirpation and range contraction, while conservation actions involving red fox culling can lead to Arctic fox recovery. Red fox advance in productive tundra, concurrent with Arctic fox retreat from this habitat, support the original hypothesis that climate warming will alter the geographical ranges of the species. However, recent studies show that anthropogenic subsidies also drive red fox advance, allowing red fox establishment north of its climate-imposed distribution limit. We conclude that synergies between anthropogenic subsidies and climate warming will speed up Arctic ecosystem change, allowing mobile species to establish and thrive in human-provided refugia, with potential spill-over effects in surrounding ecosystems.

Published
2017

17. Åtgärdsprogram för fjällräv, 2017–2021 : (Vulpes lagopus)

Author

Elmhagen, Bodil, Eide, Nina E, Killengreen, Siw T, Norén, Karin, Angerbjörn, Anders, and Wallén, Johan

Subjects
åtgärder, genetik, skyddsstatus, Förväxlingsarger, Miljövetenskap, utbredning, Environmental Sciences
Abstract

Fjällräven är klassificerad som starkt hotad i Sverige och akut hotad i Norge. På 1800-talet var det en vanligt förekommande art, men till följd av intensivt jakttryck reducerades populationen kraftigt i slutet av 1800-talet. Fjällräven fridlystes 1928 i Sverige och 1930 i Norge. Trots skydd har populationen inte återhämtat sig. Detta beror på ett flertal samverkande faktorer, framförallt låg populationsstorlek, ökad konkurrens från rödrävar som expanderar in i fjällvärlden, samt uteblivna eller mer oregelbundna lämmeltoppar som leder till födobrist. Dessutom har inavel och inavelsdepression med ökad dödlighet och minskad reproduktion dokumenterats i vissa delbestånd. Sjukdomar och parasiter utgör ett ytterligare hot mot de små delpopulationernas fortlevnad. Störningar från mänskliga aktiviteter kan utgöra ytterligare bidragande faktorer. År 2015 fanns omkring 240 reproducerande vuxna fjällrävar i Sverige och Norge, vilket utgör ett mått på beståndets minimala storlek. Inom EU är fjällräven en prioriterad art enligt habitatdirektivet, i Sverige är fjällräven fridlyst enligt artskyddsförordningen, och i Norge är fjällräven skyddad med ”fjällrävförskriften” enligt naturmangfoldloven. Åtgärder för att rädda fjällräven genomfördes i Sverige och Finland under 1998–2002 genom EU-Life Nature projektet SEFALO. Projektet fortsatte i en andra fas, SEFALO+ (2003–2008) som även involverade Norge. Båda projekten inkluderade åtgärder som stödutfodring, rödrävsjakt och inventeringar. I Norge startade flera åtgärder 2004 på uppdrag av Miljødirektoratet (tidigare Direktoratet for naturforvaltning). Sedan dess har en kombination av åtgärder genomförts i olika delbestånd: avel och utsättning av valpar, stödutfodring, samt kontroll av rödrävsbestånden. Avelsprojekt för fjällräv startade 2005 och de första valparna sattes ut 2006. Inom EU-Interregprojektet Felles Fjellrev (2010–2013) genomfördes utvidgade åtgärder i Jämtlands län samt Nord- och Sør-Trøndelag, med riktade åtgärder i mindre fjällområden mellan de fyra större delbestånden av fjällräv. För att fjällrävsstammen ska återuppnå en gynnsam bevarandestatus bör bevarandeåtgärderna fortsätta inom ramen för det svensk-norska åtgärdsprogrammet. Den långsiktiga visionen är att skapa en stabil och livskraftig stam med gynnsam bevarandestatus utan behov av ytterligare åtgärder. Det är emellertid långt tills denna vision uppnås och i detta program definieras konkreta målsättningar på lång (2035) och kort (2021) sikt. I detta program föreslås fortsatt genomförande av centrala åtgärder i form av stödutfodring och rödrävskontroll. Dessutom ska orsakerna till rödrävens ökade förekomst på fjället hanteras genom åtgärder mot de faktorer som gynnar expansionen. Avel och utsättning från det norska avelsprojektet, alternativt translokering av rävar mellan delpopulationerna, föreslås som åtgärd för att förstärka små populationer, etablera fjällrävar i mellanområden samt minska graden av inavel. Populationernas hälsostatus bör övervakas och vid ett utbrott ska behandling sättas in. Riktade informationskampanjer ska utformas för att minska konflikt och störning med människan. De åtgärder som förutsätts finansieras av Naturvårdsverket och Miljødirektoratet för genomförande av åtgärdsprogram för hotade arter beräknas totalt uppgå till 15, 1 miljoner kronor respektive 47,6 miljoner kronor under programmets giltighetsperiod 2017–2021. The arctic fox is classified as endangered in Sweden and critically endangeredin Norway. It was a common species on the mountain tundra during the 19thcentury, but the population declined severely at the end of the 19thcentury inresponse to intensive harvesting. The arctic fox was protected by Swedish law in 1928 and Norwegian law in 1930, but despite this, the population remains small. The reasons for non-recovery is connected to increased competition and predation from expanding red foxes, irregular lemming cycles and the small population size itself. In addition to this, inbreeding depression has been documented in one of the sub-populations. Further threats are introduction of diseases and parasites as well as disturbance from human activities. In 2015, a minimum of 240 reproducing adults were recorded in Sweden and Norway altogether. Within the European Union, the arctic fox is a priority species according to the Habitat Directive. In Sweden, the arctic fox is a protected species according to “Species protection ordinance” (2007). In Norway, the population is protected after the “Regulation on the arctic fox as a priority species” (2015) according to the “Biodiversity Act” (2009). During 1998–2008, conservation actions in the form of monitoring, red fox culling and supplementary feeding was implemented in Sweden and Finland within the EU-Life funded project SEFALO+. During 2008–2012, red fox removal and supplementary feeding was financed through the Swedish action plan. In Norway, conservation actions started in 2004, financed by the Norwegian Environment Agency (previously Norwegian Directorate for Nature Management). Since then, a combination of action has been implemented in the different subpopulations, including captive breeding and release of juveniles (since 2006), supplementary feeding and red fox control. Within the EU-Interreg project “Felles Fjellrev” (2010–2013) increased actions were conducted in the county of Jämtland as well as Nord- and Sør- Trøndelag, specifically focusing on smaller mountain areas located between the core areas. In 2015, Sweden and Norway signed an agreement with the aim of strengthening the collaboration for arctic fox conservation. To reach a viable population, we recommend that the actions continue within the framework of this Swedish-Norwegian action plan (2017–2021). The vision of this plan is to reach a viable Scandinavian arctic fox population without need for further conservation actions. This action plan emphasizes the importance of continuing the central actions of supplementary feeding and red fox control. In addition, we will include actions directed towards the factors underlying red fox expansion. Captive breeding and re-introduction, alternatively translocations, are suggested to demographically strengthen small populations, increase chances of establishment in stepping stone areas, and reduce occurrence of inbreeding. The health status of populations will be monitored and in case of disease outbreaks, appropriate treatment will be undertaken. Specific information campaigns will be designed to reduce conflicts and disturbance from human activities. The action plan is a guiding, but not legally binding document. The cost for the conservation measures, to be funded from the SEPA’s allocation for action plans in Sweden and Norway is estimated at 1 570 504 € and 4 945 814 € respectively during the actions plans’ validity period 2017–2021.

Published
2017

20. The influence of spatiotemporal conditions and personality on survival in reintroductions-evolutionary implications

Author

Haage, Marianne, Maran, Tiit, Alm Bergvall, Ulrika, Elmhagen, Bodil, Angerbjörn, Anders, Haage, Marianne, Maran, Tiit, Alm Bergvall, Ulrika, Elmhagen, Bodil, and Angerbjörn, Anders

Abstract

Personality exists in non-human animals and can impact fitness. There is, however, a shortage of empirical studies in certain areas within the field, and fundamental evolutionary theory on personality remains largely untested. For example, little is known on how variation in personality is maintained over evolutionary time. Theory suggests that fluctuating selection pressures due to spatiotemporal variation in conditions, e.g. food availability, is a possible mechanism and a few studies have shown that the success of different personality types varies with spatiotemporal conditions. However, it remains unknown whether different mechanisms can maintain personality within a species. Here we use a reintroduction programme for the critically endangered European mink (Mustela lutreola) to test whether multiple personality trait domains (boldness, exploration and sociability) affected survival in two different years and islands. This was done through pre-release personality tests and post-release radio-tracking monitoring. Survival was positively correlated with boldness, whereas the relationship with exploration was either negative or positive depending on year/island. The results show a complex relationship between personality and survival and suggest that exploration can be maintained over evolutionary time via spatiotemporal variation in conditions. However, in contrast to exploration, boldness did not vary spatiotemporally and sociability had no impact on survival. This indicates that different personality trait domains might be maintained by different mechanisms. To date, personality has been studied primarily within behavioural sciences, but through empirical findings we highlight the importance of personality also in ecology and conservation biology.

Published
2017
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21. An experimental approach to the formation of diet preferences and individual specialisation in European mink

Author

Haage, Marianne, Angerbjörn, Anders, Elmhagen, Bodil, Maran, Tiit, Haage, Marianne, Angerbjörn, Anders, Elmhagen, Bodil, and Maran, Tiit

Abstract

Individual dietary specialisation can occur within populations even when average diets suggest that the population has a generalist feeding strategy. Individual specialisation may impact fitness and has been related to demographic traits, ecological opportunity, competition, learning and animal personality. However, the causation and formation of individual specialisation are not fully understood. Experiments on animals raised in controlled environments provide an opportunity to examine dietary preferences and learning largely independent from variation in lifetime experiences and ecological opportunity. Here, we use a feeding experiment to examine individual specialisation and learning in captive bred European mink (Mustela lutreola) in an Estonian conservation programme. In a series of cafeteria experiments, animals could choose between one familiar food item (Baltic herring Clupea harengus membras) and two initially novel ones (noble crayfish Astacus astacus and house mouse Mus musculus). In general, mice were rarely eaten whilst crayfish consumption increased over time and fish decreased. At the individual level, there was a mix of generalists and crayfish or fish specialists, and the individuals differed in learning time in relation to novel prey. Our results indicate that individual variation in innate preferences and learning both contributes to individual diet specialisation. The differences in learning indicate individual variation in behavioural plasticity, which in turn can be related to personality. This could be of concern in conservation, as personality has been shown to affect survival in translocations.

Published
2017
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23. The changing contribution of top-down and bottom-up limitation of mesopredators during 220 years of land use and climate change

Author

Pasanen-Mortensen, Marianne, Elmhagen, Bodil, Lindén, Harto, Bergström, Roger, Wallgren, Märtha, van der Velde, Ype, Cousins, Sara A. O., Pasanen-Mortensen, Marianne, Elmhagen, Bodil, Lindén, Harto, Bergström, Roger, Wallgren, Märtha, van der Velde, Ype, and Cousins, Sara A. O.

Abstract

Apex predators may buffer bottom-up driven ecosystem change, as top-down suppression may dampen herbivore and mesopredator responses to increased resource availability. However, theory suggests that for this buffering capacity to be realized, the equilibrium abundance of apex predators must increase. This raises the question: will apex predators maintain herbivore/mesopredator limitation, if bottom-up change relaxes resource constraints? Here, we explore changes in mesopredator (red fox Vulpes vulpes) abundance over 220years in response to eradication and recovery of an apex predator (Eurasian lynx Lynx lynx), and changes in land use and climate which are linked to resource availability. A three-step approach was used. First, recent data from Finland and Sweden were modelled to estimate linear effects of lynx density, land use and winter temperature on fox density. Second, lynx density, land use and winter temperature was estimated in a 22650km(2) focal area in boreal and boreo-nemoral Sweden in the years 1830, 1920, 2010 and 2050. Third, the models and estimates were used to project historic and future fox densities in the focal area. Projected fox density was lowest in 1830 when lynx density was high, winters cold and the proportion of cropland low. Fox density peaked in 1920 due to lynx eradication, a mesopredator release boosted by favourable bottom-up changes - milder winters and cropland expansion. By 2010, lynx recolonization had reduced fox density, but it remained higher than in 1830, partly due to the bottom-up changes. Comparing 1830 to 2010, the contribution of top-down limitation decreased, while environment enrichment relaxed bottom-up limitation. Future scenarios indicated that by 2050, lynx density would have to increase by 79% to compensate for a projected climate-driven increase in fox density. We highlight that although top-down limitation in theory can buffer bottom-up change, this requires compensatory changes in apex predator abundance. Hence a

Published
2017
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24. Homage to Hersteinsson and Macdonald: climate warming and resource subsidies cause red fox range expansion and Arctic fox decline

Author

Elmhagen, Bodil, primary, Berteaux, Dominique, additional, Burgess, Robert M., additional, Ehrich, Dorothee, additional, Gallant, Daniel, additional, Henttonen, Heikki, additional, Ims, Rolf A., additional, Killengreen, Siw T., additional, Niemimaa, Jukka, additional, Norén, Karin, additional, Ollila, Tuomo, additional, Rodnikova, Anna, additional, Sokolov, Aleksandr A., additional, Sokolova, Natasha A., additional, Stickney, Alice A., additional, and Angerbjörn, Anders, additional

Published
2017
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25. Paws without claws? Ecological effects of large carnivores in anthropogenic landscapes

Author

Kuijper, D. P. J., Sahlén, E., Elmhagen, Bodil, Chamaillé-Jammes, S., Sand, H., Lone, K., Cromsigt, J. P. G. M., Kuijper, D. P. J., Sahlén, E., Elmhagen, Bodil, Chamaillé-Jammes, S., Sand, H., Lone, K., and Cromsigt, J. P. G. M.

Abstract

Large carnivores are frequently presented as saviours of biodiversity and ecosystem functioning through their creation of trophic cascades, an idea largely based on studies coming primarily out of relatively natural landscapes. However, in large parts of the world, particularly in Europe, large carnivores live in and are returning to strongly human-modified ecosystems. At present, we lack a coherent framework to predict the effects of large carnivores in these anthropogenic landscapes. We review how human actions influence the ecological roles of large carnivores by affecting their density or behaviour or those of mesopredators or prey species. We argue that the potential for density-mediated trophic cascades in anthropogenic landscapes is limited to unproductive areas where even low carnivore numbers may impact prey densities or to the limited parts of the landscape where carnivores are allowed to reach ecologically functional densities. The potential for behaviourally mediated trophic cascades may be larger and more widespread, because even low carnivore densities affect prey behaviour. We conclude that predator-prey interactions in anthropogenic landscapes will be highly context-dependent and human actions will often attenuate the ecological effects of large carnivores. We highlight the knowledge gaps and outline a new research avenue to study the role of carnivores in anthropogenic landscapes.

Published
2016
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26. Land cover effects on mesopredator abundance in the presence and absence of apex predators

Author

Pasanen-Mortensen, Marianne, Elmhagen, Bodil, Pasanen-Mortensen, Marianne, and Elmhagen, Bodil

Abstract

Trophic downgrading due to loss of apex consumers has been detected in many ecosystems. Loss of larger predators implies that medium-sized mesopredators rise to the status of apex predators which are limited bottom-up rather than top-down. Hence the density of medium-sized predators should be more strongly related to land cover in absence of larger predators. We investigate this hypothesis at a continental scale (Eurasia) for a medium-sized predator, the red fox Vulpes vulpes, in presence and absence of an apex predator, the Eurasian lynx Lynx lynx. We predicted that in absence of lynx, fox density should be positively associated with open land covers, as these could favour foxes due to high prey availability. Our results showed that fox abundance was independent of land cover in presence of lynx. However, in absence of lynx, fox density was positively but asymptotically related to cropland, while negatively related to grassland. Fox density was highest when cropland constituted approximately 30% of the landscape, likely reflecting an optimal composition of foraging and breeding habitat. Grassland was associated with low productivity, likely reflecting low prey availability. Thus, cropland is favourable for red fox, but only in absence of top-down limitation by lynx. We suggest that there are two ecosystem states in Eurasia, one northern where lynx is present as an apex predator, and one south-eastern where red fox assumes the apex predator position and its abundance is subsidised by anthropogenic land cover.

Published
2015
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27. From breeding pairs to fox towns : the social organisation of arctic fox populations with stable and fluctuating availability of food

Author

Elmhagen, Bodil, Hersteinsson, Páll, Norén, Karin, Unnsteinsdottir, Ester R., Angerbjörn, Anders, Elmhagen, Bodil, Hersteinsson, Páll, Norén, Karin, Unnsteinsdottir, Ester R., and Angerbjörn, Anders

Abstract

Food availability can impact group formation in Carnivora. Specifically, it has been suggested that temporal variation in food availability may allow a breeding pair to tolerate additional adults in their territory at times when food abundance is high. We investigate group occurrence and intraspecific tolerance during breeding in a socially flexible canid, the arctic fox (Vulpes lagopus). We compare Iceland and Sweden where resource conditions differ considerably. A breeding pair was the most common social unit in both populations, but as predicted, groups were more frequent where food abundance varied substantially between years (Sweden: 6 %) than where food availability was stable (Iceland: ≤2 %). Within Sweden, supplemental feeding increased group occurrence from 6 to 21 %, but there was no effect of natural variation in lemming (Lemmus lemmus) availability since group formation was rare also at lemming highs. Thus, additional factors appeared to influence the trade-off between intraspecific territoriality and tolerance. We report two cases where related females showed enduring social relationships with good-neighbour strategies. Related females also engaged in alloparental behaviour in a ‘fox town’ with 31 foxes (4 adults, 3 litters). In contrast, when unrelated foxes bred close to each other, they moved or split their litters during summer, presumably because of territorial conflict. We suggest that fluctuating food availability is linked to group formation in this Arctic carnivore, but also when food availability increases, additional factors such as relatedness, alloparental benefits, competition and predator defence appear necessary to explain group formation.

Published
2014
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28. Status and Ecological Effects of the World's Largest Carnivores

Author

Ripple, William J., Estes, James A., Beschta, Robert L., Wilmers, Christopher C., Ritchie, Euan G., Hebblewhite, Mark, Berger, Joel, Elmhagen, Bodil, Letnic, Mike, Nelson, Michael P., Schmitz, Oswald J., Smith, Douglas W., Wallach, Arian D., Wirsing, Aaron J., Ripple, William J., Estes, James A., Beschta, Robert L., Wilmers, Christopher C., Ritchie, Euan G., Hebblewhite, Mark, Berger, Joel, Elmhagen, Bodil, Letnic, Mike, Nelson, Michael P., Schmitz, Oswald J., Smith, Douglas W., Wallach, Arian D., and Wirsing, Aaron J.

Abstract

Large carnivores face serious threats and are experiencing massive declines in their populations and geographic ranges around the world. We highlight how these threats have affected the conservation status and ecological functioning of the 31 largest mammalian carnivores on Earth. Consistent with theory, empirical studies increasingly show that large carnivores have substantial effects on the structure and function of diverse ecosystems. Significant cascading trophic interactions, mediated by their prey or sympatric mesopredators, arise when some of these carnivores are extirpated from or repatriated to ecosystems. Unexpected effects of trophic cascades on various taxa and processes include changes to bird, mammal, invertebrate, and herpetofauna abundance or richness; subsidies to scavengers; altered disease dynamics; carbon sequestration; modified stream morphology; and crop damage. Promoting tolerance and coexistence with large carnivores is a crucial societal challenge that will ultimately determine the fate of Earth's largest carnivores and all that depends upon them, including humans., AuthorCount:14

Published
2014
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29. The relationship between wolverine and larger predators, lynx and wolf, in a historical ecosystem context

Author

Khalil, Hussein, Pasanen Mortensen, Marianne, Elmhagen, Bodil, Khalil, Hussein, Pasanen Mortensen, Marianne, and Elmhagen, Bodil

Abstract

Apex predators play an important role in shaping ecosystem structure. They may suppress smaller predators (mesopredators) but also subsidize scavengers via carrion provisioning. However, the importance of these interactions can change with ecosystem context. The wolverine (Gulo gulo) is a cold-adapted carnivore and facultative scavenger. It has a circumboreal distribution, where it could be either suppressed or subsidized by larger predators. In Scandinavia, the wolverine might interact with two larger predators, wolf (Canis lupus) and lynx (Lynx lynx), but human persecution decimated the populations in the nineteenth and early twentieth century. We investigated potential relationships between wolverine and the larger predators using hunting bag statistics from 15 Norwegian and Swedish counties in 1846-1922. Our best models showed a positive association between wolverine and lynx trends, taking ecological and human factors into account. There was also a positive association between year-to-year fluctuations in wolverine and wolf in the latter part of the study period. We suggest these associations could result from positive lynx-wolverine interactions through carrion provisioning, while wolves might both suppress wolverine and provide carrion with the net effect becoming positive when wolf density drops below a threshold. Wolverines could thus benefit from lynx presence and low-to-intermediate wolf densities.

Published
2014
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30. Världens lodjursarter

Author

Elmhagen, Bodil, Pasanen-Mortensen, Marianne, Elmhagen, Bodil, and Pasanen-Mortensen, Marianne

Published
2014

33. Carnivore conservation in practice : replicatedmanagement actions on a large spatial scale

Author

Angerbjörn, Anders, Eide, Nina E., Dalén, Love, Elmhagen, Bodil, Hellström, Peter, Ims, Rolf A., Killengreen, Siw, Landa, Arild, Meijer, Tomas, Mela, Matti, Niemimaa, Jukka, Norén, Karin, Tannerfeldt, Magnus, Yoccoz, Nigel G., Henttonen, Heikki, Angerbjörn, Anders, Eide, Nina E., Dalén, Love, Elmhagen, Bodil, Hellström, Peter, Ims, Rolf A., Killengreen, Siw, Landa, Arild, Meijer, Tomas, Mela, Matti, Niemimaa, Jukka, Norén, Karin, Tannerfeldt, Magnus, Yoccoz, Nigel G., and Henttonen, Heikki

Abstract

More than a quarter of the world’s carnivores are threatened, often due to multiple andcomplex causes. Considerable research efforts are devoted to resolving the mechanisms behindthese threats in order to provide a basis for relevant conservation actions. However, evenwhen the underlying mechanisms are known, specific actions aimed at direct support for carnivoresare difficult to implement and evaluate at efficient spatial and temporal scales.2. We report on a 30-year inventory of the critically endangered Fennoscandian arctic foxVulpes lagopus L., including yearly surveys of 600 fox dens covering 21 000 km2. These surveysshowed that the population was close to extinction in 2000, with 40–60 adult animalsleft. However, the population subsequently showed a fourfold increase in size.3. During this time period, conservation actions through supplementary feeding and predatorremoval were implemented in several regions across Scandinavia, encompassing 79% of thearea. To evaluate these actions, we examined the effect of supplemental winter feeding andred fox control applied at different intensities in 10 regions. A path analysis indicated that47% of the explained variation in population productivity could be attributed to lemmingabundance, whereas winter feeding had a 29% effect and red fox control a 20% effect.4. This confirms that arctic foxes are highly dependent on lemming population fluctuationsbut also shows that red foxes severely impact the viability of arctic foxes. This study also highlightsthe importance of implementing conservation actions on extensive spatial and temporalscales, with geographically dispersed actions to scientifically evaluate the effects. We note thatpopulation recovery was only seen in regions with a high intensity of management actions.5. Synthesis and applications. The present study demonstrates that carnivore populationdeclines may be reversed through extensive actions that target specific threats. Fennoscandianarctic fox is still endanger

Published
2013
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34. Ecosystem restoration with teeth : what role for predators?

Author

Ritchie, Euan G., Elmhagen, Bodil, Glen, Alistair S., Letnic, Mike, Ludwig, Gilbert, McDonald, Robbie A., Ritchie, Euan G., Elmhagen, Bodil, Glen, Alistair S., Letnic, Mike, Ludwig, Gilbert, and McDonald, Robbie A.

Abstract

Recent advances highlight the potential for predators to restore ecosystems and confer resilience against globally threatening processes, including climate change and biological invasions. However, releasing the ecological benefits of predators entails significant challenges. Here, we discuss the economic, environmental and social considerations affecting predator-driven ecological restoration programmes, and suggest approaches for reducing the undesirable impacts of predators. Because the roles of predators are context dependent, we argue for increased emphasis on predator functionality in ecosystems and less on the identities and origins of species and genotypes. We emphasise that insufficient attention is currently given to the importance of variation in the social structures and behaviours of predators in influencing the dynamics of trophic interactions. Lastly, we outline experiments specifically designed to clarify the ecological roles of predators and their potential utility in ecosystem restoration., AuthorCount:6

Published
2012
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35. From monogamy to complexity : social organization of arctic foxes (Vulpes lagopus) in contrasting ecosystems

Author

Norén, Karin, Hersteinsson, Pall, Samelius, Gustaf, Eide, Nina E., Fuglei, Eva, Elmhagen, Bodil, Dalén, Love, Meijer, Tomas, Angerbjörn, Anders, Norén, Karin, Hersteinsson, Pall, Samelius, Gustaf, Eide, Nina E., Fuglei, Eva, Elmhagen, Bodil, Dalén, Love, Meijer, Tomas, and Angerbjörn, Anders

Abstract

Canids display pronounced intraspecific variation in social organization, ranging from single breeding females to large and complex groups. Despite several hypotheses in this matter, little is understood about the ecological factors underlying this flexibility. We have used the arctic fox (Vulpes lagopus (L., 1758)) to investigate how contrasting ecosystem conditions concerning resources and predation influence group formation. We predicted that complex groups are more common in resource-rich ecosystems with predators, whereas simple groups occur in more marginal ecosystems without predators. Samples from 54 groups were collected from four populations of arctic foxes with contrasting prey resources and predation and these samples were genotyped in 10 microsatellite loci. We found considerable variation between ecosystems and a significant relationship between resources and formation of complex groups. We conclude that sufficient amounts of food is a prerequisite for forming complex groups, but that defense against predation further increases the benefits of living in larger groups. We present a conceptual model suggesting that a trade-off between the cost of resource depletion and the benefits obtained for guarding against predators explain the differences in social organization. The variable ecology of the arctic foxes makes it is a plausible model species for understanding the connection between ecology and social organization also in other species.

Published
2012
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36. Top predators, mesopredators and their prey : interference ecosystems along bioclimatic productivity gradients

Author

Elmhagen, Bodil, Ludwig, Gilbert, Rushton, Steve, Helle, Pekka, Lindén, Harto, Elmhagen, Bodil, Ludwig, Gilbert, Rushton, Steve, Helle, Pekka, and Lindén, Harto

Abstract

1. The Mesopredator Release Hypothesis (MRH) suggests that top predator suppression of mesopredators is a key ecosystem function with cascading impacts on herbivore prey, but it remains to be shown that this top-down cascade impacts the large-scale structure of ecosystems. 2. The Exploitation Ecosystems Hypothesis (EEH) predicts that regional ecosystem structures are determined by top-down exploitation and bottom-up productivity. In contrast to MRH, EEH assumes that interference among predators has a negligible impact on the structure of ecosystems with three trophic levels. 3. We use the recolonisation of a top predator in a three-level boreal ecosystem as a natural experiment to test if large-scale biomass distributions and population trends support MRH. Inspired by EEH, we also test if top-down interference and bottom-up productivity impact regional ecosystem structures. 4. We use data from the Finnish Wildlife Triangle Scheme which has monitored top predator (lynx Lynx lynx), mesopredator (red fox Vulpes vulpes) and prey (mountain hare Lepus timidus) abundance for 17 years in a 200 000 km2 study area which covers a distinct productivity gradient. 5. Fox biomass was lower than expected from productivity where lynx biomass was high, while hare biomass was lower than expected from productivity where fox biomass was high. Hence, where interference controlled fox abundance, lynx had an indirect positive impact on hare abundance as predicted by MRH. The rates of change indicated that lynx expansion gradually suppressed fox biomass. 6. Lynx status caused shifts between ecosystem structures. In the “interference ecosystem”, lynx and hare biomass increased with productivity whilst fox biomass did not. In the “mesopredator release ecosystem”, fox biomass increased with productivity but hare biomass did not. Thus, biomass controlled top-down did not respond to changes in productivity. This fulfils a critical prediction of EEH. 7. We conclude that the cascade involving top

Published
2010
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37. Modelling the spatial population dynamics of arctic foxes : the effects of red foxes and microtine cycles

Author

Shirley, Mark, Elmhagen, Bodil, Lurz, Peter, Rushton, Steve, Angerbjörn, Anders, Shirley, Mark, Elmhagen, Bodil, Lurz, Peter, Rushton, Steve, and Angerbjörn, Anders

Abstract

The Fennoscandian arctic fox Vulpes lagopus (L., 1758) population is critically endangered, possibly because of increased interference competition from red foxes Vulpes vulpes (L., 1758) and fading cycles in microtine rodents, which cause food shortage. It is not known how these factors drive arctic fox population trends. To test their role in arctic fox decline, we developed a spatially-explicit and individual-based model that allowed us to simulate fox interactions and food availability in a real landscape. A sensitivity analysis revealed that simulated arctic fox population size and den occupancy were strongly correlated with fecundity and mortality during the microtine crash phase, but also with red fox status. Model simulations suggested that arctic fox population trends depended on microtine cycles and that arctic fox distributions were restricted by red fox presence. We compared the model predictions with field data collected at Vindelfjällen, Sweden. The model recreated the observed arctic fox trend only with the inclusion of arctic fox avoidance of red fox home ranges. The results indicate that avoidance behaviours can affect population trends and hence, that relatively small numbers of red foxes can have a strong negative impact on arctic fox population size and distribution., Fjällräv

Published
2009
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39. Trophic control of mesopredators in terrestrial ecosystems: top-down or bottom-up?

Author

Elmhagen, Bodil, Rushton, Steve, Elmhagen, Bodil, and Rushton, Steve

Abstract

It has been argued that widespread extinctions of top predators have changed terrestrial ecosystem structures through mesopredator release, where increased abundances of medium-sized predators have detrimental effects on prey communities. This top-down concept has received much attention within conservation biology, but few studies have demonstrated the phenomenon. The concept has been criticized since alternative explanations involving bottom-up impacts from bioclimatic effects on ecosystem productivity and from anthropogenic habitat change are rarely considered. We analyse the response of a mesopredator (the red fox) to declines in top predators (wolf and Eurasian lynx) and agricultural expansion over 90 years in Sweden, taking bioclimatic effects into account. We show a top-down mesopredator release effect, but ecosystem productivity determined its strength. The impacts of agricultural activity were mediated by their effects on top predator populations. Thus, both top-down and bottom-up processes need to be understood for effective preservation of biodiversity in anthropogenically transformed ecosystems.

Published
2007
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41. Population structure in a critically endangered arctic fox population : does genetics matter?

Author

Dalén, Love, Kvaloy, K., Linnell, J. D. C., Elmhagen, Bodil, Strand, O., Tannerfeldt, M., Henttonen, H., Fuglei, E., Landa, A., Angerbjörn, Anders, Dalén, Love, Kvaloy, K., Linnell, J. D. C., Elmhagen, Bodil, Strand, O., Tannerfeldt, M., Henttonen, H., Fuglei, E., Landa, A., and Angerbjörn, Anders

Abstract

The arctic fox (Alopex lagopus) in Scandinavia is classified as critically endangered after having gone through a severe decline in population size in the beginning of the 20th century, from which it has failed to recover despite more than 65 years of protection. Arctic foxes have a high dispersal rate and often disperse over long distances, suggesting that there was probably little population differentiation within Scandinavia prior to the bottleneck. It is, however, possible that the recent decline in population size has led to a decrease in dispersal and an increase in population fragmentation. To examine this, we used 10 microsatellite loci to analyse genetic variation in 150 arctic foxes from Scandinavia and Russia. The results showed that the arctic fox in Scandinavia presently is subdivided into four populations, and that the Kola Peninsula and northwest Russia together form a large fifth population. Current dispersal between the populations seemed to be very low, but genetic variation within them was relatively high. This and the relative F-ST values among the populations are consistent with a model of recent fragmentation within Scandinavia. Since the amount of genetic variation is high within the populations, but the populations are small and isolated, demographic stochasticity seems to pose a higher threat to the populations' persistence than inbreeding depression and low genetic variation.

Published
2006
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42. Fälthandbok – Fjällräv. En vägledning vid inventering av fjällrävsbeståndet, tolkning av spår och spårtecken, samt skillnader mellan fjällräv, rödräv och förrymda farmrävar.

Author

Eide, Nina, Andersen, Roy, Elmhagen, Bodil, Linnell, John, Sandal, T, Dalén, Love, Angerbjörn, Anders, Hellström, Peter, Landa, Arild, Eide, Nina, Andersen, Roy, Elmhagen, Bodil, Linnell, John, Sandal, T, Dalén, Love, Angerbjörn, Anders, Hellström, Peter, and Landa, Arild

Published
2005

47. DNA analysis on fox faeces and competition induced niche shifts

Author

Dalén, Love, Elmhagen, Bodil, Angerbjörn, Anders, Dalén, Love, Elmhagen, Bodil, and Angerbjörn, Anders

Abstract

Interference competition can force inferior competitors to change their distribution patterns. It is, however, possible that the dominant competitor poses a higher threat during certain times of the year, for example during reproduction. In such cases, the inferior competitor is expected to change its distribution accordingly. We used a molecular species identification method on faeces to investigate how the spatial overlap between arctic and red foxes changes between seasons. The results show that arctic and red foxes are sympatric during winter, but allopatric in summer as arctic foxes retreat to higher altitudes further from the tree-line during the breeding season, Part of urn:nbn:se:su:diva-726

Published
2004
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48. Interference competition between arctic and red foxes.

Author

Elmhagen, Bodil and Elmhagen, Bodil

Abstract

In this thesis, I investigate the relationship between arctic foxes Alopex lagopus and red foxes Vulpes vulpes in Swedish mountain tundra habitat (fjällen). The arctic fox population was severely reduced by hunting in the early 20th century. It has not recovered despite protection since 1928 and it is endangered, while the red fox population increased in 1930-1960. I found a high food niche overlap between arctic and red foxes and they responded similarly to changes in the prey base, indicating similar prey preferences. Hence, arctic and red foxes should compete for the same territories; more precisely the ones in low altitude areas close to the tree-line where prey abundance is relatively high. In the 19th century, arctic foxes bred in all tundra habitats. An analysis of present den use showed that arctic foxes have retreated to higher altitudes as they rarely used the lower parts of their former range. Instead, red foxes did. Arctic foxes were highly dependent on the availability of Norwegian lemmings Lemmus lemmus for reproduction, while red foxes at lower altitudes had better access to alternative prey. Interference competition imply that there are behavioural interactions between competing species, e.g. fighting or predation, but interactions can also be more subtle and imply that inferior species avoid encounters with stronger competitors by changing their habitat use. Red foxes are larger than arctic foxes. Hence, they have an advantage in direct fights and arctic foxes may either be driven away from their dens when red foxes establish in the vicinity, or they avoid habitats where they risk encounters with red foxes. I found that arctic foxes almost exclusively used dens situated farther than 8 km from inhabited red fox dens. In two out of three cases when they bred closer to red foxes, there was red fox predation on arctic fox cubs. Further, simulations of arctic fox avoidance of areas surrounding inhabited red fox dens in a spatially explicit population mod

Published
2003

50. Food-niche overlap between arctic and red foxes

Author

Elmhagen, Bodil, Tannerfeldt, M., Angerbjörn, Anders, Elmhagen, Bodil, Tannerfeldt, M., and Angerbjörn, Anders

Abstract

Arctic foxes (Alopex lagopus) in Fennoscandia have retreated to higher altitudes on the mountain tundra, possibly because of increased competition with red foxes (Vulpes vulpes) at lower altitudes. In this study we compare summer food niches of the two species in mountain tundra habitat. Arctic foxes consumed lemmings more often than red foxes did, while red foxes consumed field voles and birds more often. Yet despite substantial variation in the diet of each species among summers, food-niche overlaps between the species were consistently high in most summers, as arctic and red foxes responded similarly to temporal changes in prey availability. Occurrences of field voles and birds in fox scats were negatively Correlated with altitude, while the occurrences of lemmings tended to increase with altitude. Since arctic foxes bred at higher altitudes than red foxes, the differences between arctic and red fox diets were better explained by altitudinal segregation than by differences between their fundamental food niches. Arctic foxes should therefore endeavour to use the more productive hunting grounds at the lower altitudes of their former range, but interference competition with red foxes might decrease their access to these areas, and consequently cause a decrease in the size of in their realised niche., ISI Document Delivery No.: 599AC Times Cited: 12 Cited Reference Count: 68

Published
2002
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