How does increasing mast seeding frequency affect population dynamics of seed consumers? Wild boar as a case study
Published 2020 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
How does increasing mast seeding frequency affect population dynamics of seed consumers? Wild boar as a case study
Authors
Keywords
-
Journal
ECOLOGICAL APPLICATIONS
Volume -, Issue -, Pages -
Publisher
Wiley
Online
2020-04-17
DOI
10.1002/eap.2134
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- More frequent extreme climate events stabilize reindeer population dynamics
- (2019) Brage B. Hansen et al. Nature Communications
- Flower phenology as a disruptor of the fruiting dynamics in temperate oak species
- (2019) Éliane Schermer et al. NEW PHYTOLOGIST
- Correlated seed failure as an environmental veto to synchronize reproduction of masting plants
- (2018) Michał Bogdziewicz et al. NEW PHYTOLOGIST
- Estimating daily meteorological data and downscaling climate models over landscapes
- (2018) Miquel De Cáceres et al. ENVIRONMENTAL MODELLING & SOFTWARE
- Pollen limitation as a main driver of fruiting dynamics in oak populations
- (2018) Éliane Schermer et al. ECOLOGY LETTERS
- Reproductive allocation in pulsed-resource environments: a comparative study in two populations of wild boar
- (2017) Marlène Gamelon et al. OECOLOGIA
- The Moran effect and environmental vetoes: phenological synchrony and drought drive seed production in a Mediterranean oak
- (2017) Michał Bogdziewicz et al. PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES
- Increasing spring temperatures favor oak seed production in temperate areas
- (2017) Thomas Caignard et al. Scientific Reports
- Interactions between demography and environmental effects are important determinants of population dynamics
- (2017) Marlène Gamelon et al. Science Advances
- Can phenological models predict tree phenology accurately in the future? The unrevealed hurdle of endodormancy break
- (2016) Isabelle Chuine et al. GLOBAL CHANGE BIOLOGY
- Mechanisms of mast seeding: resources, weather, cues, and selection
- (2016) Ian S. Pearse et al. NEW PHYTOLOGIST
- Partitioning prediction uncertainty in climate-dependent population models
- (2016) Gilles Gauthier et al. PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES
- The influence of environmental and physiological factors on the litter size of wild boar ( Sus scrofa ) in an agriculture dominated area in Germany
- (2016) Magali Frauendorf et al. SCIENCE OF THE TOTAL ENVIRONMENT
- Practical Bayesian model evaluation using leave-one-out cross-validation and WAIC
- (2016) Aki Vehtari et al. STATISTICS AND COMPUTING
- Phenological plasticity will not help all species adapt to climate change
- (2015) Anne Duputié et al. GLOBAL CHANGE BIOLOGY
- How do vertebrates respond to mast seeding?
- (2015) Michał Bogdziewicz et al. OIKOS
- What Is a Mild Winter? Regional Differences in Within-Species Responses to Climate Change
- (2015) Sebastian G. Vetter et al. PLoS One
- Projected continent-wide declines of the emperor penguin under climate change
- (2014) Stéphanie Jenouvrier et al. Nature Climate Change
- Mast seeding in deciduous forests of the northern Apennines (Italy) and its influence on wild boar population dynamics
- (2013) Andrea Cutini et al. ANNALS OF FOREST SCIENCE
- Fluctuating food resources influence developmental plasticity in wild boar
- (2013) M. Gamelon et al. Biology Letters
- How does climate change influence demographic processes of widespread species? Lessons from the comparative analysis of contrasted populations of roe deer
- (2013) Jean-Michel Gaillard et al. ECOLOGY LETTERS
- Impacts of climate change on avian populations
- (2013) Stephanie Jenouvrier GLOBAL CHANGE BIOLOGY
- Estimating the effect of temporally autocorrelated environments on the demography of density-independent age-structured populations
- (2013) Steinar Engen et al. Methods in Ecology and Evolution
- Effects of climate change on an emperor penguin population: analysis of coupled demographic and climate models
- (2012) Stéphanie Jenouvrier et al. GLOBAL CHANGE BIOLOGY
- Making use of harvest information to examine alternative management scenarios: a body weight-structured model for wild boar
- (2012) Marlène Gamelon et al. JOURNAL OF APPLIED ECOLOGY
- Anticipation and tracking of pulsed resources drive population dynamics in eastern chipmunks
- (2011) Patrick Bergeron et al. ECOLOGY
- Climate change and spotted owls: potentially contrasting responses in the Southwestern United States
- (2011) Marcus Zachariah Peery et al. GLOBAL CHANGE BIOLOGY
- Climate change threatens polar bear populations: a stochastic demographic analysis
- (2010) Christine M. Hunter et al. ECOLOGY
- Assessing whether mortality is additive using marked animals: a Bayesian state–space modeling approach
- (2010) Sabrina Servanty et al. ECOLOGY
- Spring 2007 warmth and frost: phenology, damage and refoliation in a temperate deciduous forest
- (2009) Carol K. Augspurger FUNCTIONAL ECOLOGY
- Pulsed resources and climate-induced variation in the reproductive traits of wild boar under high hunting pressure
- (2009) Servanty Sabrina et al. JOURNAL OF ANIMAL ECOLOGY
- Demographic models and IPCC climate projections predict the decline of an emperor penguin population
- (2009) Stéphanie Jenouvrier et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- WHAT CAN WE LEARN FROM RESOURCE PULSES
- (2008) Louie H. Yang et al. ECOLOGY
- NUMERICAL AND BEHAVIORAL EFFECTS WITHIN A PULSE-DRIVEN SYSTEM: CONSEQUENCES FOR SHARED PREY
- (2008) Kenneth A. Schmidt et al. ECOLOGY
- Survival of Wild Boars in a Variable Environment: Unexpected Life-history Variation in an Unusual Ungulate
- (2008) Stefano Focardi et al. JOURNAL OF MAMMALOGY
Find the ideal target journal for your manuscript
Explore over 38,000 international journals covering a vast array of academic fields.
SearchBecome a Peeref-certified reviewer
The Peeref Institute provides free reviewer training that teaches the core competencies of the academic peer review process.
Get Started