Aquatic Science (2021)

Other Texas Science sets

• Grade K
• Grade 1
• Grade 2 (2021)
• Grade 3
• Grade 4
• Grade 5
• Grade 6
• Grade 7 (2021)
• Grade 8 (2017)
• Grade 8 (2021)
• Biology
• Earth Systems Science (2021)
• Integrated Physics and Chemistry
• Physics
• Specialized Topics in Science
• Chemistry
• Environmental Systems (2021): Grades 10, 11, 12
• Astronomy
• Astronomy (2021): Grade 12

identify advantages and limitations of models such as their size, scale, properties, and materials;A.2.A

analyze data by identifying significant statistical features, patterns, sources of error, and limitations;A.2.B

use mathematical calculations to assess quantitative relationships in data; andA.2.C

evaluate experimental and engineering designs.A.2.D

develop explanations and propose solutions supported by data and models consistent with scientific ideas, principles, and theories;A.3.A

communicate explanations and solutions individually and collaboratively in a variety of settings and formats; andA.3.B

engage respectfully in scientific argumentation using applied scientific explanations and empirical evidence.A.3.C

analyze, evaluate, and critique scientific explanations and solutions by using empirical evidence, logical reasoning, and experimental and observational testing, so as to encourage critical thinking by the student;A.4.A

relate the impact of past and current research on scientific thought and society, including research methodology, cost-benefit analysis, and contributions of diverse scientists as related to the content; andA.4.B

research and explore resources such as museums, planetariums, observatories, libraries, professional organizations, private companies, online platforms, and mentors employed in a science, technology, engineering, and mathematics (STEM) field in order to investigate STEM careers.A.4.C

describe how the shape and polarity of the water molecule make it a "universal solvent" in aquatic systems;A.5.A

identify how aquatic ecosystems are affected by water's properties of adhesion, cohesion, surface tension, heat capacity, and thermal conductivity; andA.5.B

explain how the density of water is critical for organisms in cold environments.A.5.C

identify key features and characteristics of atmospheric, geological, hydrological, and biological systems as they relate to aquatic environments;A.6.A

describe the interrelatedness of atmospheric, geological, hydrological, and biological systems in aquatic ecosystems, including positive and negative feedback loops; andA.6.B

evaluate environmental data using technology such as maps, visualizations, satellite data, Global Positioning System (GPS), Geographic Information System (GIS), weather balloons, and buoys to model the interactions that affect aquatic ecosystems.A.6.C

identify how energy flows and matter cycles through both freshwater and marine aquatic systems, including food webs, chains, and pyramids;A.7.A

identify biological, chemical, geological, and physical components of an aquatic life zone as they relate to the organisms in it;A.7.B

identify variables that affect the solubility of carbon dioxide and oxygen in water;A.7.C

evaluate factors affecting aquatic population cycles such as lunar cycles, temperature variations, hours of daylight, and predator-prey relationships; andA.7.D

identify the interdependence of organisms in an aquatic environment such as in a pond, a river, a lake, an ocean, or an aquifer and the biosphere.A.7.E

evaluate data over a period of time from an established aquatic environment documenting seasonal changes and the behavior of organisms;A.8.A

collect and analyze pH, salinity, temperature, mineral content, nitrogen compounds, dissolved oxygen, and turbidity data periodically, starting with baseline measurements; andA.8.B

use data from short-term or long-term studies to analyze interrelationships between producers, consumers, and decomposers in aquatic ecosystems.A.8.C

identify the role of carbon, nitrogen, water, and nutrient cycles in an aquatic environment, including upwellings and turnovers;A.9.A

examine the interrelationships between aquatic systems and climate and weather, including El Niño and La Niña, currents, and hurricanes; andA.9.B

explain how tidal cycles influence intertidal ecology.A.9.C

identify sources of water in a watershed, including rainfall, groundwater, and surface water;A.10.A

identify factors that contribute to how water flows through a watershed;A.10.B

analyze water quantity and quality in a local watershed or aquifer; andA.10.C

describe human uses of fresh water and how human freshwater use competes with that of other organisms.A.10.D

examine basic principles of fluid dynamics, including hydrostatic pressure, density as a result of salinity, and buoyancy;A.11.A

identify interrelationships between ocean currents, climates, and geologic features such as continental margins, active and passive margins, abyssal plains, island atolls, peninsulas, barrier islands, and hydrothermal vents;A.11.B

explain how fluid dynamics causes upwelling and lake turnover; andA.11.C

describe how erosion and deposition in river systems lead to formation of geologic features.A.11.D

differentiate among freshwater, brackish, and marine ecosystems; andA.12.A

identify the major properties and components of different marine and freshwater life zones.A.12.B

compare different traits in aquatic organisms using tools such as dichotomous keys;A.13.A

describe how adaptations allow an organism to exist within an aquatic environment; andA.13.B

compare adaptations of freshwater and marine organisms.A.13.C

analyze the cumulative impact of human population growth on an aquatic ecosystem;A.14.A

predict effects of chemical, organic, physical, and thermal changes due to humans on the living and nonliving components of an aquatic ecosystem;A.14.B

investigate the role of humans in unbalanced systems involving phenomena such as invasive species, fish farming, cultural eutrophication, or red tides;A.14.C

analyze and discuss how human activities such as fishing, transportation, dams, and recreation influence aquatic environments;A.14.D

describe the impact such as costs and benefits of various laws and policies such as The Endangered Species Act, right of capture laws, or Clean Water Act on aquatic systems; andA.14.E

analyze the purpose and effectiveness of human efforts to restore aquatic ecosystems affected by human activities.A.14.F