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相关概念视频

Predator-Prey Interactions02:39

Predator-Prey Interactions

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Predators consume prey for energy. Predators that acquire prey and prey that avoid predation both increase their chances of survival and reproduction (i.e., fitness). Routine predator-prey interactions elicit mutual adaptations that improve predator offenses, such as claws, teeth, and speed, as well as prey defenses, including crypsis, aposematism, and mimicry. Thus, predator-prey interactions resemble an evolutionary arms race.
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Population Growth00:57

Population Growth

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Population size is dynamic, increasing with birth rates and immigration, and decreasing with death rates and emigration. In ideal conditions with unlimited resources, populations can increase exponentially, which plots as a J-shaped growth rate curve of population size against time. This type of curve is characteristic of newly-introduced invasive species, or populations that have suffered catastrophic declines and are rebounding.
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Speciation Rates01:07

Speciation Rates

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Overview
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The Evidence for Evolution02:55

The Evidence for Evolution

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Genetic variations accumulating within populations over generations give rise to biological evolution. Evolutionary changes can result in the formation of novel varieties and entire new species. These changes are responsible for the diverse forms of life inhabiting the planet. The evidence for evolution suggests that all living organisms descended from common ancestors.
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What is Evolutionary History?02:35

What is Evolutionary History?

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Scientists record evolutionary history by analyzing fossil, morphological, and genetic data. The fossil record documents the history of life on Earth and provides evidence for evolution. However, both fossil and living organisms offer evidence that outlines Earth’s evolutionary history.
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Evolutionary Psychology01:20

Evolutionary Psychology

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Evolutionary psychology explores the origins of human behavior and mental processes by framing them within the context of natural selection, a theory famously propounded by Charles Darwin. This field asserts that many behaviors common across human societies — ranging from instinctive fear reactions to complex social interactions — arose as evolutionary adaptations. These adaptations enhanced the survival and reproductive success of our ancestors, thereby becoming embedded in the...
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相关实验视频

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A Real-Time Interactive System for Studying Confrontational Pursuit Behavior in Rodents
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A Real-Time Interactive System for Studying Confrontational Pursuit Behavior in Rodents

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快速的进化驱动了捕食者-猎物系统中的生态动态.

Takehito Yoshida1, Laura E Jones, Stephen P Ellner

  • 1Department of Ecology and Evolutionary Biology, Cornell University, Ithaca, NY 14853, USA.

Nature
|July 18, 2003
PubMed
概括

快速的猎物进化显著改变了捕食者-猎物周期. 实验表明,基因变异的藻类,以响应捕食者密度而进化,与不进化的藻类相比,创造了更长的,超阶段周期.

科学领域:

  • 生态生态学 生态生态学
  • 进化生物学 进化生物学
  • 人口动态 人口动态

背景情况:

  • 生态和进化过程可以同时发生.
  • 关于快速进化对生态动态的影响的理论模型往往缺乏经验验证.
  • 了解捕食者-猎物周期需要考虑进化影响.

研究的目的:

  • 为了研究猎物的快速进化如何影响掠食者-猎物周期.
  • 测试关于猎物的进化权衡的模型预测.
  • 确定猎物的遗传变异性在种群动态中的作用.

主要方法:

  • 实验室的微观世界与罗蒂弗藻类捕食者-猎物系统.
  • 操纵藻类遗传变异性 (单克隆与多克隆培养).
  • 捕食者-猎物周期动态和相位滞后的观察和分析.

主要成果:

  • 观察到快速的猎物进化是为了应对振荡的捕食者密度.
  • 确认了藻类竞争能力和反掠食防御之间的权衡.
  • 与单克隆种群相比,多克隆 (遗传变异) 藻类种群的周期周期和相位变化较长.

结论:

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  • 猎物进化可以大大改变捕食者-猎物动态.
  • 人口动态模型必须包含快速进化的效应.
  • 持续的进化是理解自然人口振荡的关键因素.