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Generalization, Discrimination, and Extinction01:24

Generalization, Discrimination, and Extinction

1.4K
Generalization, discrimination, and extinction are key concepts in operant conditioning that influence how behaviors are learned and maintained.
Generalization occurs when a behavior reinforced in one context is performed in similar situations. For instance, a student who studies diligently for calculus and receives excellent grades might apply the same study habits to psychology and history, expecting similar results. Generalization shows how learning in one setting can influence behavior in...
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Conservation of Small Populations02:04

Conservation of Small Populations

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Small population sizes put a species at extreme risk of extinction due to a lack of variation, and a consequent decrease in adaptability. This weakens the chances of survival under pressures such as climate change, competition from other species, or new diseases. Large populations are more likely to survive pressures such as these, as such populations are more likely to harbor individuals that have genetic variants that are adaptive under new stresses. Small populations are much less...
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Threats to Biodiversity01:50

Threats to Biodiversity

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There have been five major extinction events throughout geological history, resulting in the elimination of biodiversity, followed by a rebound of species that adapted to the new conditions. In the current geological epoch, the Holocene, there is a sixth extinction event in progress. This mass extinction has been attributed to human activities and is thus provisionally called the Anthropocene. In 2019 the human population reached 7.7 billion people and is projected to comprise 10 billion by...
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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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Habitat Fragmentation02:31

Habitat Fragmentation

21.4K
Habitat fragmentation describes the division of a more extensive, continuous habitat into smaller, discontinuous areas. Human activities such as land conversion, as well as slower geological processes leading to changes in the physical environment, are the two leading causes of habitat fragmentation. The fragmentation process typically follows the same steps: perforation, dissection, fragmentation, shrinkage, and attrition.
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Plant Breeding and Biotechnology01:59

Plant Breeding and Biotechnology

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Crop cultivation has a long history in human civilization, with records showing the cultivation of cereal plants beginning at around 8000 BC. This early plant breeding was developed primarily to provide a steady supply of food.
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Related Experiment Video

Updated: Feb 2, 2026

A Treatment Package without Escape Extinction to Address Food Selectivity
04:23

A Treatment Package without Escape Extinction to Address Food Selectivity

Published on: August 21, 2015

12.1K

De-Extinction.

Ben Jacob Novak1,2,3

  • 1Revive & Restore, Sausalito, CA 94965, USA. ben@reviverestore.org.

Genes
|November 16, 2018
PubMed
Summary
This summary is machine-generated.

De-extinction efforts are redefined to unify reintroduction and ecological replacement with breeding strategies for extinct phenotypes. This clarifies the field and introduces "evolutionarily torpid species" for those persisting in cryopreserved forms.

Keywords:
de-extinctionevolutionarily torpid speciesheath henpassenger pigeonprecise hybridizationproxyrestorerevive &ampwoolly mammoth

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Area of Science:

  • Conservation Biology
  • Genetics
  • Ecology

Background:

  • De-extinction projects like the woolly mammoth and passenger pigeon have generated significant interest and debate.
  • Existing literature lacks consistency in describing de-extinction technologies and objectives.
  • The International Union for Conservation of Nature (IUCN) guidelines (2016) provided the first detailed description but contain inconsistencies.

Purpose of the Study:

  • To present a comprehensive definition of de-extinction practice and rationale.
  • To reconcile biological and ecological inconsistencies within the current IUCN definition.
  • To establish a unified "de-extinction" discipline encompassing reintroduction, ecological replacement, and phenotype recovery.

Main Methods:

  • Critically analyzing and reconciling inconsistencies in the IUCN de-extinction definition.
  • Integrating practices of reintroduction and ecological replacement with de-extinction breeding strategies.
  • Introducing the classification of "evolutionarily torpid species" for those persisting in cryopreserved tissues or cell cultures.

Main Results:

  • A new, comprehensive definition of de-extinction practice is proposed, unifying diverse approaches.
  • The study segregates certain species' restoration into a new endangerment classification, distinct from de-extinction.
  • "Evolutionarily torpid species" are identified as a new category for species falsely considered extinct.
  • All active de-extinction breeding programs are reviewed, with progress presented for the first time in literature.

Conclusions:

  • Accurate definitions are crucial for advancing de-extinction and conservation biotechnology.
  • The proposed definition and classification clarify the scope and practice of de-extinction.
  • This work provides a foundation for future research and ethical considerations in de-extinction and species recovery efforts.