Climate influences populations through a variety of processes. One mechanism that may be particularly important is the role of climate in disrupting un-equally the phenology of the predator and prey in a food chain. The match-mismatch hypothesis, referring to the development and survival of a predator is affected by the synchrony with its prey is used to describe climate effects on ecological patterns and processes in both terrestrial and marine systems. We expand on the match-mismatch hypothesis by considering the simple statement: “what is bad for the predator should be good for the prey”. In other word we reversed the output of the match-mismatch hypothesis, i.e., the increase of the asynchrony lead to a better survival/recruitme...
In high-latitude marine environments, primary producers and their consumers show seasonal peaks of a...
Climatic changes are disrupting otherwise tight trophic interactions between predator and prey. Mos...
Climatic changes are disrupting otherwise tight trophic interactions between predator and prey. Most...
Climate influences populations through a variety of processes. One mechanism that may be particular...
Climate influences populations through a variety of processes. One mechanism that may be particularl...
Differential change in the phenology of predators and prey is a potentially important climate-mediat...
Differential change in the phenology of predators and prey is a potentially important climate-mediat...
Differential change in the phenology of predators and prey is a potentially important climate-mediat...
Differential change in the phenology of predators and prey is a potentially important climate-mediat...
International audienceDifferential change in the phenology of predators and prey is a potentially im...
Journal homepage: http://www.int-res.com/journals/cr/Climate influences a population through a varie...
Climatic changes are disrupting otherwise tight trophic interactions between predator and prey. Mos...
Climate influences a population through a variety of processes, including reproduction, growth, migr...
Climate influences a population through a variety of processes, including reproduction, growth, migr...
In high-latitude marine environments, primary producers and their consumers show seasonal peaks of a...
In high-latitude marine environments, primary producers and their consumers show seasonal peaks of a...
Climatic changes are disrupting otherwise tight trophic interactions between predator and prey. Mos...
Climatic changes are disrupting otherwise tight trophic interactions between predator and prey. Most...
Climate influences populations through a variety of processes. One mechanism that may be particular...
Climate influences populations through a variety of processes. One mechanism that may be particularl...
Differential change in the phenology of predators and prey is a potentially important climate-mediat...
Differential change in the phenology of predators and prey is a potentially important climate-mediat...
Differential change in the phenology of predators and prey is a potentially important climate-mediat...
Differential change in the phenology of predators and prey is a potentially important climate-mediat...
International audienceDifferential change in the phenology of predators and prey is a potentially im...
Journal homepage: http://www.int-res.com/journals/cr/Climate influences a population through a varie...
Climatic changes are disrupting otherwise tight trophic interactions between predator and prey. Mos...
Climate influences a population through a variety of processes, including reproduction, growth, migr...
Climate influences a population through a variety of processes, including reproduction, growth, migr...
In high-latitude marine environments, primary producers and their consumers show seasonal peaks of a...
In high-latitude marine environments, primary producers and their consumers show seasonal peaks of a...
Climatic changes are disrupting otherwise tight trophic interactions between predator and prey. Mos...
Climatic changes are disrupting otherwise tight trophic interactions between predator and prey. Most...
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