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Creating Scientists : Teaching and Assessing Science Practice for the NGSS. (2017)

Moore, Christopher.

Oxford :Taylor & Francis Group,

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Keywords: Next Generation Science Standards (Education). ; Electronic books.

Description / Table of Contents: This practical new book provides a clear framework for helping students develop scientific thinking so they are not just memorizing content but are becoming engaged in the real work scientists do.

Type of Medium: Online Resource

Pages: 1 online resource (197 pages)

Edition: 1st ed.

ISBN: 9781315298580

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=5185466

DDC: 507.1273

Language: English

Note: Cover -- Title -- Copyright -- Dedication -- Contents -- About the Author -- Acknowledgments -- Introduction: How Do You Create Scientists? -- Part I: Teaching and Assessing Science Practice -- 1 What Is Science Practice? -- 2 How Do You Teach Science Practice? -- 3 How Do You Assess Science Practice? -- Part II: Science Practice in the Classroom -- 4 Conducting Investigations and Transforming Your Classroom -- 5 Interpreting Results and Teaching Abstract Concepts -- 6 Communicating Science and Building Communities of Practice -- Part III: Putting It All Together -- 7 Capstones to Learning and Going Beyond the NGSS.

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Iron limitation of the postbloom phytoplankton communities in the Iceland Basin (2009)

Nielsdóttir, Maria C. ; Moore, Christopher Mark ; Sanders, Richard ; [et al.]

AGU (American Geophysical Union)

In: Global Biogeochemical Cycles, 23 (3). n/a-n/a.

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Publication Date: 2014-02-05

Description: Measurements performed on a cruise within the central Iceland Basin in the high-latitude (〉55 degrees N) North Atlantic Ocean during late July to early September 2007 indicated that the concentration of dissolved iron (dFe) in surface waters was very low, with an average of 0.093 (〈0.010-0.218, n = 43) nM, while nitrate concentrations ranged from 2 to 5 mu M and in situ chlorophyll concentrations ranged from 0.2 to 0.4 mg m(-3). In vitro iron addition experiments demonstrated increased photosynthetic efficiencies (F(v)/F(m)) and enhanced chlorophyll accumulation in treatments amended with iron when compared to controls. Enhanced net growth rates for a number of phytoplankton taxa including the coccolithophore Emiliania huxleyi were also observed following iron addition. These results provide strong evidence that iron limitation within the postspring bloom phytoplankton community contributes to the observed residual macronutrient pool during summer. Low atmospheric iron supply and suboptimal Fe:N ratios in winter overturned deep water are suggested to result in the formation of this seasonal high-nutrient, low-chlorophyll (HNLC) condition, representing an inefficiency of the biological (soft tissue) carbon pump in the region.

Type: Article , PeerReviewed

Format: text

DOI: 10.1029/2008GB003410

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OceanRep: Article in a Scientific Journal - peer-reviewed

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Shallow Calcium Carbonate Cycling in the North Pacific Ocean (2022)

Subhas, Adam V. ; Dong, Sijia ; Naviaux, John D. ; [et al.]

AGU (American Geophysical Union) | Wiley

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Publication Date: 2024-02-07

Description: Key Points: - High resolution carbonate chemistry, δ13C-DIC, and particle flux measurements in the NE Pacific sheds light on the upper oceancalcium carbonate and alkalinity cycles. - Based on this sampling campaign, there isevidence for substantial CaCO3 dissolution in the mesopelagic zone above the saturation horizon. - Dissolution experiments, observations, and modeling suggest that shallow CaCO3 dissolutionis coupled to the consumption of organic carbon, through a combination of zooplankton grazing and oxic respiration within particle microenvironments. The cycling of biologically produced calcium carbonate (CaCO3) in the ocean is a fundamental component of the global carbon cycle. Here, we present experimental determinations of in situcoccolith and foraminiferal calcite dissolution rates.We combine these rates with solid phase fluxes,dissolved tracers, and historical data to constrain the alkalinity cycle in the shallow North Pacific Ocean.The in situ dissolution rates of coccolithophores demonstrate a nonlinear dependence on saturation state. Dissolution ratesof all three major calcifying groups (coccoliths, foraminifera, and aragonitic pteropods)aretoo slow to explainthe patternsofboth CaCO3sinking fluxand alkalinity regenerationin the NorthPacific.Usinga combination of dissolved and solid-phase tracers, we document a significant dissolution signal in seawater supersaturated for calcite. Driving CaCO3dissolutionwith acombination of ambient saturation state and oxygen consumption simultaneously explainssolid-phase CaCO3flux profiles and patterns of alkalinity regeneration across the entire N. Pacific basin. Wedo not need to invokethe presence ofcarbonate phases with higher solubilities.Instead, biomineralization and metabolic processesintimately associatethe acid (CO2) and the base (CaCO3) in the same particles,driving the coupled shallow remineralization of organic carbonand CaCO3.The linkage of these processes likely occurs through a combination of dissolution due to zooplankton grazing and microbial aerobic respiration withindegrading particle aggregates.The coupling of these cyclesacts as a major filter on the export of both organic and inorganic carbon to the deep ocean.

Type: Article , PeerReviewed

Format: other

Format: text

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OceanRep: Article in a Scientific Journal - peer-reviewed

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