2019:groups:g10:start
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2019:groups:g10:start [2019/01/13 23:13] – [Suggested Questions] prado | 2019:groups:g10:start [2024/01/09 18:45] (current) – external edit 127.0.0.1 | ||
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**Group 10** | **Group 10** | ||
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- | ====== Fear of the Crab ====== | ||
Wiki site of the practical exercise of the [[http:// | Wiki site of the practical exercise of the [[http:// | ||
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<WRAP clear></ | <WRAP clear></ | ||
- | Experiments have been developed to assess the propagation of the nonconsumptive predator effects through food-chain and its interplay with intra-specific competition. Nevertheless, | + | Experiments have been developed to assess the propagation of the nonconsumptive predator effects through food-chain and its interplay with intra-specific competition. The joint effect of competition, |
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+ | Matassa et al. (2018) found that the competition among barnacles was dependent on the predation risk upon snails, suggesting a coupling between behaviours across trophic levels. The authors also assessed the competition among snails and verified that its intensity was dependent on NCE's from top predators, but not from prey availability. Additionally, | ||
===== Assignment ===== | ===== Assignment ===== | ||
- | + | Build a mathematical model of the dynamics of this biological system. Analyze the model and use it to formulate and answer questions you may find along the way. | |
- | Build a mathematical model of the dynamics of this biological system. Analyze the model and use it to formulate and answer questions you may find along the way. | + | |
===== Suggested Questions ===== | ===== Suggested Questions ===== | ||
- | * What kind of dynamics can be predicted by a mathematical model of this interaction? | + | |
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- | * By changing their behaviour, the snails favour a decrease in their mortality in face of an increased food intake. Does the model provide insights on this strategy ? | + | * By changing their behaviour, the snails favour a decrease in their mortality in face of an increased food intake. Does the model provide insights on this strategy? |
* Considering a scenario in which the experiment performed by Matassa et al. (2018) (see ref. below) allowed for consumptive predator effects from the //C. maenas// upon the //N. lapillus//, what qualitative changes on dynamics could be expected? | * Considering a scenario in which the experiment performed by Matassa et al. (2018) (see ref. below) allowed for consumptive predator effects from the //C. maenas// upon the //N. lapillus//, what qualitative changes on dynamics could be expected? | ||
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- Matassa, C.M., Ewanchuk, P.J., Trussell, G.C., 2018. Cascading effects of a top predator on intraspecific competition at intermediate and basal trophic levels. Functional Ecology 32, 2241–2252. https:// | - Matassa, C.M., Ewanchuk, P.J., Trussell, G.C., 2018. Cascading effects of a top predator on intraspecific competition at intermediate and basal trophic levels. Functional Ecology 32, 2241–2252. https:// | ||
+ | - Donelan, S.C., Grabowski, J.H., Trussell, G.C., 2017. Refuge quality impacts the strength of nonconsumptive effects on prey. Ecology 98, 403–411. https:// | ||
+ | - Matassa, C.M., Donelan, S.C., Luttbeg, B., Trussell, G.C., 2016. Resource levels and prey state influence antipredator behavior and the strength of nonconsumptive predator effects. Oikos 125, 1478–1488. https:// |
2019/groups/g10/start.1547421206.txt.gz · Last modified: 2024/01/09 18:45 (external edit)