Incorporating spatial structure and stochasticity in endangered Bonelli’s eagle’s population models: Implications for conservation and management

Soutullo, Álvaro; López‐López, Pascual; Urios, Vicente

doi:10.1016/j.biocon.2008.01.011

Cited by 51 publications

(98 citation statements)

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“…increasing juvenile survival) are needed, whereas strategies based solely on decreasing adult mortality and territory abandonment (such as decreasing perturbations to Bonelli's eagle territories or increasing prey availability) are unlikely to suYce. This also agrees with the Wndings of Soutullo et al (2008) based on demographic models. Given Bonelli's eagles large dispersal distances (Cadahía et al 2005(Cadahía et al , 2006, decreasing the mortality of dispersing individuals requires a large-scale regional management framework.…”

Section: Application Of Markov Chains To Conservation Assessmentsupporting

confidence: 90%

“…On the other hand, improving power line design will decrease both juvenile and adult mortality. Both strategies are needed and should be enforced, yet, our results (and those of Soutullo et al 2008) suggest that without action aimed at increasing juveniles survival and the colonization of new territories, population declines are likely.…”

Section: Application Of Markov Chains To Conservation Assessmentmentioning

confidence: 74%

“…Ferrer and Hiraldo 1992;Ontiveros et al 2004;López-López et al 2007a, b). Actually, enhancing juvenile survival has been recently demonstrated as a key factor to maintain the Bonelli's eagle population in Spain, given current conditions (Soutullo et al 2008).…”

Section: Application Of Markov Chains To Conservation Assessmentmentioning

confidence: 99%

“…These include decreasing perturbations (e.g. direct persecution) in the areas that are abandoned or remain vacant (Carrete et al 2002a(Carrete et al , b, 2005(Carrete et al , 2006, controlling golden eagles populations (Carrete et al 2002a, b), enhancing nesting site suitability for breeding, including increasing food supply (Carrete et al 2002a, b;Gil-Sánchez et al 2004;Ontiveros et al 2004Ontiveros et al , 2005, reducing adult mortality (Carrete et al 2002a, b;Gil-Sánchez et al 2004), and decreasing the mortality of dispersing individuals (Ontiveros and Pleguezuelos 2000;Carrete et al 2002aCarrete et al , 2005Soutullo et al 2008). These measures can be grouped into two main management strategies: (a) those aimed at decreasing juvenile mortality, and thus encouraging Bonelli's eagle colonization of new territories, and (b) those aimed at decreasing adult mortality and the abandonment of occupied territories.…”

Section: Introductionmentioning

confidence: 99%

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Markov models of territory occupancy: implications for the management and conservation of competing species

et al. 2008

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Markov chains have been frequently used in community ecology to model successional changes, but little attention has been paid to its application in population ecology as a tool to explore the outcomes of species interactions. Markov models can be regarded as "null models" that provide predicted values under a no-change scenario against which the consequences of changes in variables of interest can be assessed. Here we explore Markov chains' potential to project population trends of competing species and derive sensible management strategies. To do that we use six years of Weld data on territory occupancy and turn-over of two competing top predators in a Mediterranean landscape: the golden and Bonelli's eagles. The results suggest that long-term coexistence of both species in the study area is likely, with the main limitation for their coexistence being the diYculties Bonelli's eagles have in colonising new territories that become available. To avoid future declines in the population of Bonelli's eagle, it is important to take into account that the positive eVects of conservation strategies focused on encouraging colonization (e.g. decreasing disperser mortality) are likely to be larger than those focused on avoiding territory abandonment (e.g. decreasing adult mortality). Markov chains are likely to be useful to evaluate the relative

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Section: Application Of Markov Chains To Conservation Assessmentsupporting

confidence: 90%

Section: Application Of Markov Chains To Conservation Assessmentmentioning

confidence: 74%

Section: Application Of Markov Chains To Conservation Assessmentmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Markov models of territory occupancy: implications for the management and conservation of competing species

et al. 2008

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“…We found a positive relationship between productivity, density and recent population trend, which suggests that the Spanish population of Bonelli's eagle show a very large spatial heterogeneity in these three demographic parameters, and that it may be suffering from a high mortality or low productivity that maintain it below carrying capacity. High mortality of the breeding segment of the population has been observed (Real et al 2001) and, as a consequence, juvenile floater individuals find and occupy vacant territories, or mate with owners of territories after the disappearance of one of the members of a breeding pair (see Balbontín et al 2003, Penteriani et al 2006, and Soutullo et al 2008 for longlived Mediterranean raptors). This reduction in age at first breeding and productivity has been proposed as a consequence of unnatural events caused by human persecution in the Bonelli's eagle .…”

Section: Discussionmentioning

confidence: 99%

Linking density, productivity and trends of an endangered species: The Bonelli's eagle in Spain

Carrascal

Seoane

2009

Acta Oecologica

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It is controversial if regional population density is a good indicator of environmental quality according to demographic variables such as breeding success or short-term population trends. In this paper we analyze the interrelationships among regional population density, breeding success and recent population trends of an endangered species, the Bonelli's eagle in the Iberian Peninsula. It is also analyzed the different influence of geographical, climatic, landscape structure and human impact variables on regional variation in those demographic variables. Breeding success was higher and population decrease was lower in those areas where the population density of Bonelli's eagle was greater. The tightly related productivity, density and recent population trends of Bonelli's eagle increased from northern to southern Iberian Peninsula (with highest figures at intermediate latitudes), and as sun radiation increased, and altitude decreased. Breeding success and population density were significantly lower in the periphery of the distribution range than in core areas in the Iberian Peninsula. Population trends between 2000 and 2005 were also more negative (decreasing) in the periphery. Overall, these results suggest that population density in this endangered species of large home-range is a good indicator of environmental quality and reproductive output, and that peripheral populations occupy low suitability areas with lower breeding success, and more probable negative short term population trends.

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Demography of an endangered, long‐lived fish: Informing management options in the face of cyclic and stochastic climate variation

Belk

Tuckfield²

2019

Population Ecology

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June sucker (Chasmistes liorus) is a long-lived, endangered fish endemic to Utah Lake, Utah. For several decades June sucker have failed to recruit sufficient numbers to the adult size classes such that the current wild population consists of a small number of old adults and it continues to decline. Vital rates of June sucker are influenced by climate-driven variation in lake level and inflow from the Provo River. We used population projection matrix modeling to assess effects of cyclic and stochastic environmental variation on population growth trajectories of June sucker in Utah Lake. The stable stage distribution is dominated by stage 1 individuals (93% of the total population) in contrast to the current situation where old age classes are the most abundant. Total population size is highly influenced by the stochastic component of climate variation; whereas, the adult population of June sucker closely tracks the systematic drought cycle. If changes in survival of larvae and juveniles can be coordinated such that positive changes in both parameters can occur somewhat simultaneously, then each parameter would only have to be increased by a factor of about 8.8 to achieve sustainable population growth (compared to a 77-fold increase for each parameter separately). Stochastic climatic variation has relatively little long-term effect on population growth. However, the multidecadal cyclic pattern of lake level and river discharge imposes a similar pattern on population growth rates of the June sucker, such that during some periods, populations decline even when the long-term trend is positive. K E Y W O R D SChasmistes liorus, drought cycle, periodic life history strategy, population projection matrix, stochastic climate variation

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Incorporating spatial structure and stochasticity in endangered Bonelli’s eagle’s population models: Implications for conservation and management

Cited by 51 publications

References 37 publications

Markov models of territory occupancy: implications for the management and conservation of competing species

Markov models of territory occupancy: implications for the management and conservation of competing species

Linking density, productivity and trends of an endangered species: The Bonelli's eagle in Spain

Demography of an endangered, long‐lived fish: Informing management options in the face of cyclic and stochastic climate variation

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