Purpose
Achievement Criteria
Explanatory Note 1
Demonstrate understanding of genetic variation in relation to an identified characteristic involves:
- describing the source and the nature of genetic variation using an identified characteristic
- describing a purpose for identifying genetic relationships through the use of a gene tracking methodology.
Explain genetic variation in relation to an identified characteristic involves:
- explaining how and why the genetic variation occurs using an identified characteristic
- explaining how the purpose of identifying genetic relationships through the use of a gene tracking methodology is met.
Evaluate genetic variation in relation to an identified characteristic involves:
- evaluating findings when genetic variation has been identified and tracked for the purpose of identifying genetic relationships.
Explanatory Note 2
For the purpose of this achievement standard, an identified characteristic refers to a trait with differences or similarities in phenotype or morphology.
Explanatory Note 3
For the purpose of this achievement standard, a gene tracking methodology identifies the presence or absence of one or more genes, genetic markers, or DNA sequences within an individual or population.
Explanatory Note 4
For the purpose of this achievement standard, a source is the origin or factor that significantly contributes to genetic variation.
Examples of a source of genetic variation for an individual include:
- mutation
- sexual reproduction.
Examples of a source of genetic variation for a population include:
- small population size
- differing rates of survival
- migration
- non-random mating
Explanatory Note 5
For the purpose of this achievement standard, nature is the effect or outcome, caused by a change in genetic variation over time, in an individual or population.
Examples of the nature of genetic variation include:
- beneficial, due to increased resistance to disease for an individual or population
- prevalence of albinism in populations of wild animals.
Shared Explanatory Note
Refer to the NCEA glossary for Māori, Pacific, and further subject-specific terms and concepts.
This achievement standard is derived from the Science Learning Area at Level 6 of The New Zealand Curriculum: Learning Media, Ministry of Education, 2007.
External Assessment Specifications
The External Assessment Specifications are published by NZQA and can be found on their website using this link:
NZQA Chemistry and Biology
Unpacking the Standard
Mātauranga Māori constitutes concepts and principles that are richly detailed, complex, and fundamental to Māoridom. It is important to remember that the practice of these are wider and more varied than their use within the proposed NCEA Achievement Standards and supporting documentation.
We also recognise that the cultures, languages, and identities of the Pacific Islands are diverse, varied, and unique. Therefore the Pacific concepts, contexts, and principles that have been incorporated within NCEA Achievement Standards may have wide-ranging understandings and applications across and within the diversity of Pacific communities. It is not our intention to define what these concepts mean but rather offer some ways that they could be understood and applied within different subjects that kaiako and students alike can explore.
Mātauranga Māori constitutes concepts and principles that are richly detailed, complex, and fundamental to Māoridom. It is important to remember that the practice of these are wider and more varied than their use within the proposed NCEA Achievement Standards and supporting documentation.
We also recognise that the cultures, languages, and identities of the Pacific Islands are diverse, varied, and unique. Therefore the Pacific concepts, contexts, and principles that have been incorporated within NCEA Achievement Standards may have wide-ranging understandings and applications across and within the diversity of Pacific communities. It is not our intention to define what these concepts mean but rather offer some ways that they could be understood and applied within different subjects that kaiako and students alike can explore.
The intent of the Standard
The purpose of this Achievement Standard is for ākonga to show their understanding of how tracking genetic variation provides a useful tool to trace connections between living things. Ākonga will explore sources of genetic variation and link the tracking of genetic information to human endeavours such as disease diagnosis, or care for an endangered species.
The intention is for ākonga to explore the nature of the genetic code. Ākonga will learn how differences between the genetic information in the code of individuals relate to genetic variation, and how this variation arises. This could include sexual reproduction as a recombination of existing alleles, and mutation as a means of new genetic information arising within a population. Ākonga should understand how these sources of inheritable variations lead to advantages and disadvantages of sexual reproduction for a population, in terms of genetic variation.
This Achievement Standard aligns with the following item of Significant Learning:
- consider how genetic variation arises and its effects on biological systems.
Ākonga should understand genetic variation as an informative tool which can be applied in many different situations. Ākonga will understand how sources of variation in a population, such as migration, mutations, non-random mating, population dynamics, and survival capability caused by differences in phenotype, can result in genetic variation over generations. This will allow a deeper understanding of the importance of variation within populations when there is a changing environment such as pest infestation, disease, drought, or flood.
Making reliable judgements
Using an identified phenotype or trait, ākonga will explain the source and nature of genetic variation and relate genetic variation to connections between living things. They will identify a purpose for identifying genetic relationships between organisms, through the use of gene tracking.
Explaining how and why genetic variation arises, in terms of an identified phenotype, might involve discussion of:
- the roles of DNA in carrying instructions to the next generation and in determining phenotype
- the relationship between DNA, alleles, genes, and chromosomes
- the way in which genotype determines phenotype
- the implications of paired chromosomes, such that individuals inherit two copies of each gene.
Examples of sources of variation include the role of meiosis in generating gametes, and the random nature of fertilisation, both of which produce a new combination of alleles in offspring. Consideration of the nature of genetic variation, for this Achievement Standard, looks to the outcomes and implications for the individual organism, as well as the population and wider ecological community. These outcomes and implications should not just be generalised to be good, bad, or having no effect. Rather than simply assigning a qualifier to the variation, the important aspect is for ākonga to understand and explain how this variation could result in identified outcomes, and how these may affect the organism, population, or community.
The nature of genetic variation can cover ideas such as:
- inheritable and non-inheritable variations that exist within a group of living organisms
- survival of various members of a group may depend on their phenotype
- the importance of variation within populations (population and species survival) in a changing environment such as pest infestation, disease, drought, or flood
- the advantages and disadvantages of sexual reproduction.
Ākonga will demonstrate understanding by describing the source and nature of genetic variation using an identified characteristic. They will also describe a purpose for identifying genetic relationships through the use of a gene tracking methodology.
At higher levels of achievement, ākonga will explain how the tracking of genetic variation can be linked to an outcome such as a health diagnosis. Evaluating findings should involve a discussion of how the variation in a trait being tracked relates to the overall purpose. Ākonga may use tools such as family and phylogenetic trees, pedigree charts, Punnett squares, and genetic markers to support their response. These tools are not gene tracking methodologies, but they can be used to further support an explanation by representing genetic relationships, inheritance patterns, or probabilities.
Evaluation of the tracking of genetic information should be in relation to the purpose of applying the tracking methodology. The purpose of this may be relevant for an individual, population, or wider community.
For example, a native bird population in Aotearoa New Zealand may have very low genetic variation. The source of this variation could be an extreme and rapid reduction in the population in the past. Genetic markers are often tracked in individual birds, which give an indication of how closely related these individuals may be. Evaluating findings is valid when ākonga show understanding of how information about genetic variation in an individual can give information about how closely an individual is to others in the population, and an understanding of genetic variation throughout a population. The purpose of tracking these markers is to maintain a breeding programme which maximises genetic diversity and reduces inbreeding depression. This is beneficial for the overall survival of the bird population, as well as the wider community of organisms that the bird population is a part of.
DNA structure, the sugar-phosphate backbone, base pairing, and the mechanisms and phases of meiosis, should not be assessed.
Collecting evidence
Refer to the External Assessment Specifications for further information.
Possible contexts
This Achievement Standard encourages study of human relationships, conservation of endemic species, agricultural practices, food security and sovereignty, predisposition to non-communicable disease, and mātauranga Māori issues of importance in Aotearoa New Zealand. During the teaching and learning programme, ākonga should encounter a range of ways that genetic information is tracked in a range of contexts such as forensics, tracking inherited conditions, conservation of small populations, or origins of foods.
Kaiako should guide ākonga to consider examples that are accessible at Level 6 of The New Zealand Curriculum: Learning Media, Ministry of Education, 2007.
The intent of the Standard
The purpose of this Achievement Standard is for ākonga to show their understanding of how tracking genetic variation provides a useful tool to trace connections between living things. Ākonga will explore sources of genetic variation and link the tracking of genetic information to human endeavours such as disease diagnosis, or care for an endangered species.
The intention is for ākonga to explore the nature of the genetic code. Ākonga will learn how differences between the genetic information in the code of individuals relate to genetic variation, and how this variation arises. This could include sexual reproduction as a recombination of existing alleles, and mutation as a means of new genetic information arising within a population. Ākonga should understand how these sources of inheritable variations lead to advantages and disadvantages of sexual reproduction for a population, in terms of genetic variation.
This Achievement Standard aligns with the following item of Significant Learning:
- consider how genetic variation arises and its effects on biological systems.
Ākonga should understand genetic variation as an informative tool which can be applied in many different situations. Ākonga will understand how sources of variation in a population, such as migration, mutations, non-random mating, population dynamics, and survival capability caused by differences in phenotype, can result in genetic variation over generations. This will allow a deeper understanding of the importance of variation within populations when there is a changing environment such as pest infestation, disease, drought, or flood.
Making reliable judgements
Using an identified phenotype or trait, ākonga will explain the source and nature of genetic variation and relate genetic variation to connections between living things. They will identify a purpose for identifying genetic relationships between organisms, through the use of gene tracking.
Explaining how and why genetic variation arises, in terms of an identified phenotype, might involve discussion of:
- the roles of DNA in carrying instructions to the next generation and in determining phenotype
- the relationship between DNA, alleles, genes, and chromosomes
- the way in which genotype determines phenotype
- the implications of paired chromosomes, such that individuals inherit two copies of each gene.
Examples of sources of variation include the role of meiosis in generating gametes, and the random nature of fertilisation, both of which produce a new combination of alleles in offspring. Consideration of the nature of genetic variation, for this Achievement Standard, looks to the outcomes and implications for the individual organism, as well as the population and wider ecological community. These outcomes and implications should not just be generalised to be good, bad, or having no effect. Rather than simply assigning a qualifier to the variation, the important aspect is for ākonga to understand and explain how this variation could result in identified outcomes, and how these may affect the organism, population, or community.
The nature of genetic variation can cover ideas such as:
- inheritable and non-inheritable variations that exist within a group of living organisms
- survival of various members of a group may depend on their phenotype
- the importance of variation within populations (population and species survival) in a changing environment such as pest infestation, disease, drought, or flood
- the advantages and disadvantages of sexual reproduction.
Ākonga will demonstrate understanding by describing the source and nature of genetic variation using an identified characteristic. They will also describe a purpose for identifying genetic relationships through the use of a gene tracking methodology.
At higher levels of achievement, ākonga will explain how the tracking of genetic variation can be linked to an outcome such as a health diagnosis. Evaluating findings should involve a discussion of how the variation in a trait being tracked relates to the overall purpose. Ākonga may use tools such as family and phylogenetic trees, pedigree charts, Punnett squares, and genetic markers to support their response. These tools are not gene tracking methodologies, but they can be used to further support an explanation by representing genetic relationships, inheritance patterns, or probabilities.
Evaluation of the tracking of genetic information should be in relation to the purpose of applying the tracking methodology. The purpose of this may be relevant for an individual, population, or wider community.
For example, a native bird population in Aotearoa New Zealand may have very low genetic variation. The source of this variation could be an extreme and rapid reduction in the population in the past. Genetic markers are often tracked in individual birds, which give an indication of how closely related these individuals may be. Evaluating findings is valid when ākonga show understanding of how information about genetic variation in an individual can give information about how closely an individual is to others in the population, and an understanding of genetic variation throughout a population. The purpose of tracking these markers is to maintain a breeding programme which maximises genetic diversity and reduces inbreeding depression. This is beneficial for the overall survival of the bird population, as well as the wider community of organisms that the bird population is a part of.
DNA structure, the sugar-phosphate backbone, base pairing, and the mechanisms and phases of meiosis, should not be assessed.
Collecting evidence
Refer to the External Assessment Specifications for further information.
Possible contexts
This Achievement Standard encourages study of human relationships, conservation of endemic species, agricultural practices, food security and sovereignty, predisposition to non-communicable disease, and mātauranga Māori issues of importance in Aotearoa New Zealand. During the teaching and learning programme, ākonga should encounter a range of ways that genetic information is tracked in a range of contexts such as forensics, tracking inherited conditions, conservation of small populations, or origins of foods.
Kaiako should guide ākonga to consider examples that are accessible at Level 6 of The New Zealand Curriculum: Learning Media, Ministry of Education, 2007.
Standard Exclusions
This Standard has one or more exclusions, or Standards that assess the same or similar learning. These Standards are excluded against one another to prevent assessing the same learning twice. You can only use credits gained from one of these standards towards your NCEA qualification.
Find out more about the NCEA Level 1 Exclusions List.
Standard Exclusions
This Standard has one or more exclusions, or Standards that assess the same or similar learning. These Standards are excluded against one another to prevent assessing the same learning twice. You can only use credits gained from one of these standards towards your NCEA qualification.
Find out more about the NCEA Level 1 Exclusions List.
Literacy and Numeracy Requirements
This Achievement Standard has been approved for literacy in the transition period (2024-2027).
Full information on the co-requisite during the transition period: Standards approved for NCEA Co-requisite during the transition period (2024-2027).
Literacy and Numeracy Requirements
This Achievement Standard has been approved for literacy in the transition period (2024-2027).
Full information on the co-requisite during the transition period: Standards approved for NCEA Co-requisite during the transition period (2024-2027).