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Machine learning for ecology and sustainable natural resource management (2018)

Humphries, Grant R. W. [HerausgeberIn] ; Magness, Dawn R. [HerausgeberIn] ; Huettmann, Falk [HerausgeberIn]

Cham : Springer

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Call number: 9783319969787 (e-book)

Description / Table of Contents: Ecologists and natural resource managers are charged with making complex management decisions in the face of a rapidly changing environment resulting from climate change, energy development, urban sprawl, invasive species and globalization. Advances in Geographic Information System (GIS) technology, digitization, online data availability, historic legacy datasets, remote sensors and the ability to collect data on animal movements via satellite and GPS have given rise to large, highly complex datasets. These datasets could be utilized for making critical management decisions, but are often “messy” and difficult to interpret. Basic artificial intelligence algorithms (i.e., machine learning) are powerful tools that are shaping the world and must be taken advantage of in the life sciences. In ecology, machine learning algorithms are critical to helping resource managers synthesize information to better understand complex ecological systems. Machine Learning has a wide variety of powerful applications, with three general uses that are of particular interest to ecologists: (1) data exploration to gain system knowledge and generate new hypotheses, (2) predicting ecological patterns in space and time, and (3) pattern recognition for ecological sampling. Machine learning can be used to make predictive assessments even when relationships between variables are poorly understood. When traditional techniques fail to capture the relationship between variables, effective use of machine learning can unearth and capture previously unattainable insights into an ecosystem's complexity. Currently, many ecologists do not utilize machine learning as a part of the scientific process. This volume highlights how machine learning techniques can complement the traditional methodologies currently applied in this field

Type of Medium: 12

Pages: 1 Online-Ressource (xxiv, 441 Seiten) , Illustrationen, Diagramme, Karten

ISBN: 9783319969787 , 978-3-319-96978-7

URL: Ebook (access only within the AWI network)

DOI: 10.1007/978-3-319-96978-7

Language: English

Note: Contents Part I Introduction 1 Machine Learning in Wildlife Biology: Algorithms, Data Issues and Availability, Workflows, Citizen Science, Code Sharing, Metadata and a Brief Historical Perspective / Grant R. W. Humphries and Falk Huettmann 2 Use of Machine Learning (ML) for Predicting and Analyzing Ecological and ‘Presence Only’ Data: An Overview of Applications and a Good Outlook / Falk Huettmann, Erica H. Craig, Keiko A. Herrick, Andrew P. Baltensperger, Grant R. W. Humphries, David J. Lieske, Katharine Miller, Timothy C. Mullet, Steffen Oppel, Cynthia Resendiz, Imme Rutzen, Moritz S. Schmid, Madan K. Suwal, and Brian D. Young 3 Boosting, Bagging and Ensembles in the Real World: An Overview, some Explanations and a Practical Synthesis for Holistic Global Wildlife Conservation Applications Based on Machine Learning with Decision Trees / Falk Huettmann Part II Predicting Patterns 4 From Data Mining with Machine Learning to Inference in Diverse and Highly Complex Data: Some Shared Experiences, Intellectual Reasoning and Analysis Steps for the Real World of Science Applications / Falk Huettmann 5 Ensembles of Ensembles: Combining the Predictions from Multiple Machine Learning Methods / David J. Lieske, Moritz S. Schmid, and Matthew Mahoney 6 Machine Learning for Macroscale Ecological Niche Modeling - a Multi-Model, Multi-Response Ensemble Technique for Tree Species Management Under Climate Change / Anantha M. Prasad 7 Mapping Aboveground Biomass of Trees Using Forest Inventory Data and Public Environmental Variables within the Alaskan Boreal Forest / Brian D. Young, John Yarie, David Verbyla, Falk Huettmann, and F. Stuart Chapin III Part III Data Exploration and Hypothesis Generation with Machine Learning 8 ‘Batteries’ in Machine Learning: A First Experimental Assessment of Inference for Siberian Crane Breeding Grounds in the Russian High Arctic Based on ‘Shaving’ 74 Predictors / Falk Huettmann, Chunrong Mi, and Yumin Guo 9 Landscape Applications of Machine Learning: Comparing Random Forests and Logistic Regression in Multi-Scale Optimized Predictive Modeling of American Marten Occurrence in Northern Idaho, USA / Samuel A. Cushman and Tzeidle N. Wasserman 10 Using Interactions among Species, Landscapes, and Climate to Inform Ecological Niche Models: A Case Study of American Marten (Martes americana) Distribution in Alaska / Andrew P. Baltensperger 11 Advanced Data Mining (Cloning) of Predicted Climate-Scapes and Their Variances Assessed with Machine Learning: An Example from Southern Alaska Shows Topographical Biases and Strong Differences / Falk Huettmann 12 Using TreeNet, a Machine Learning Approach to Better Understand Factors that Influence Elevated Blood Lead Levels in Wintering Golden Eagles in the Western United States / Erica H. Craig, Tim H. Craig, and Mark R. Fuller Part IV Novel Applications of Machine Learning Beyond Species Distribution Models 13 Breaking Away from ‘Traditional’ Uses of Machine Learning: A Case Study Linking Sooty Shearwaters (Ardenna griseus) and Upcoming Changes in the Southern Oscillation Index / Grant R. W. Humphries 14 Image Recognition in Wildlife Applications / Dawn R. Magness 15 Machine Learning Techniques for Quantifying Geographic Variation in Leach’s Storm-Petrel (Hydrobates leucorhous) Vocalizations / Grant R. W. Humphries, Rachel T. Buxton, and Ian L. Jones Part V Implementing Machine Learning for Resource Management 16 Machine Learning for ‘Strategic Conservation and Planning’: Patterns, Applications, Thoughts and Urgently Needed Global Progress for Sustainability / Falk Huettmann 17 How the Internet Can Know What You Want Before You Do: Web-Based Machine Learning Applications for Wildlife Management / Grant R. W. Humphries 18 Machine Learning and ‘The Cloud’ for Natural Resource Applications: Autonomous Online Robots Driving Sustainable Conservation Management Worldwide? / Grant R. W. Humphries and Falk Huettmann 19 Assessment of Potential Risks from Renewable Energy Development and Other Anthropogenic Factors to Wintering Golden Eagles in the Western United States / Erica H. Craig, Mark R. Fuller, Tim H. Craig, and Falk Huettmann Part VI Conclusions 20 A Perspective on the Future of Machine Learning: Moving Away from ‘Business as Usual’ and Towards a Holistic Approach of Global Conservation / Grant R. W. Humphries and Falk Huettmann Index

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The oceans and climate (2003)

Bigg, Grant R. [VerfasserIn]

Cambridge : Cambridge University Press

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Call number: PIK N 453-16-90125

Type of Medium: Monograph available for loan

Pages: xi, 273 Seiten , Illustrationen, Diagramme, Karten , 26 cm

Edition: 2nd edition

ISBN: 0521815703 , 9780521815703 , 0521016347 (pbk) , 9780521016346 (pbk)

URL: http://www.loc.gov/catdir/description/cam032/2003043956.html

URL: http://www.loc.gov/catdir/toc/cam032/2003043956.html

URL: http://www.loc.gov/catdir/samples/cam041/2003043956.html

URL: http://www.loc.gov/catdir/enhancements/fy0731/2003043956-b.html

URL: http://www.gbv.de/dms/bowker/toc/9780521815703.pdf

Language: English

Location: A 18 - must be ordered

Branch Library: PIK Library

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The Oceans and Climate (1998)

Bigg, Grant R.

Cambridge [u.a.] : Cambridge University Press

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Call number: AWI A3-98-0215

Description / Table of Contents: Contents: Preface. - 1 The climate system. - 1.1 Solar radiation. - 1.1.1 The effective temperature of the Earth. - 1.2 The atmosphere. - 1.2.1 The greenhouse effect. - 1.2.2 Reflected radiation. - 1.3 The oceans. - 1.3.1 Chemical composition of the oceans. - 1.3.2 Ocean circulation. - 1.4 The cryosphere. - 1.5 The biosphere. - 1.6 The geosphere. - 1.7 Timescales and feedbacks. - 1.8 Variation of the climate system over time. - Further reading. - 2 Physical interaction between the ocean and atmosphere. - 2.1 Radiation. - 2.1.1 Solar radiation. - 2.1.2 Long-wave radiation. - 2.2 Heat exchange through latent and sensible heat. - 2.2.1 Latent heat. - 2.2.2 Sensible heat. - 2.3 The oceanic heat balance. - 2.4 Oceanic forcing by air-sea exchange of moisture and heat. - 2.4.1 Moisture exchange. - 2.4.2 Heat exchange. - 2.5 Basic forces within the atmosphere and ocean. - 2.5.1 Hydrostatic balance. - 2.5.2 The Coriolis force. - 2.5.3 Geostrophy. - 2.6 Tidal forces and their influence. - 2.7 Momentum transfer and drag. - 2.8 Waves, the production of aerosols and condensation nuclei. - 2.8.1 Wave formation and characteristics. - 2.8.2 Breaking waves and marine aerosols. - 2.8.3 Condensation nuclei. - 2.9 The Ekman spiral and Langmuir circulation. - 2.9.1 The Ekman spiral. - 2.9.2 Langmuir circulation. - 2.10 Wind-driven circulation of the ocean. - 2.10.1 The ocean gyres. - 2.10.2 Coastal upwelling. - 2.10.3 The tropical surface circulation. - 2.10.4 The Indian Ocean monsoonal circulation. - 2.10.5 The polar regions. - 2.10.6 Oceanic eddies. - 2.11 Oceanic impact on the marine atmospheric circulation. - 2.11.1 Hurricanes. - Further reading. - 3 Chemical interaction of the atmosphere and ocean. - 3.1 Solubility of gases. - 3.2 Gas exchange across the air-sea interface. - 3.3 The carbon cycle. - 3.3.1 The carbon cycle. - 3.3.2 Oceanic control of carbon dioxide - principal processes. - 3.3.3 Oceanic control of carbon dioxide - geographical variations. - 3.4 Oxygen in the ocean. - 3.5 The transfer of particles. - 3.5.1 Aerosols, plankton, and climate. - 3.5.2 Sea spray, clouds, and climate. - 3.5.3 Mechanisms for preciptitation formation. - 3.6 Photochemical reactions in seawater. - 3.7 Chemical tracers. - Further reading. - 4 Biochemical interaction of th e atmosphere and ocean. - 4.1 Phytoplankton. - 4.1.1 Phytoplankton growth. - 4.1.2 Geographical variation. - 4.1.3 Vertical variation and ocean colour. - 4.2 Climatically active products of marine biological processes. - 4.2.1 Carbon compounds other than CO2. - 4.2.2 Nitrogeneous compounds. - 4.2.3 Sulphureous compounds. - 4.2.4 Methylcompounds. - 4.3 Bio-geochemical cycles. - 4.3.1 The carbon cycle. - 4.3.2 The nitrogen cycle. - 4.3.3 The phosphorus cycle. - 4.3.4 The oxygen cycle. - 4.3.5 The sulphur cycle. - 4.4 DMS and climate. - Further reading. - 5 Large-scale air-sea interaction. - 5.1 Tropospheric pressure systems and the ocean. - 5.1.1 The physics of large-scale extra-tropical interaction. - 5.1.2 Maritime climates. - 5.1.3 Interannual variability in the atmosphere and ocean. - 5.1.4 Oceanic influence on extra-tropical cyclogenesis. - 5.2 ENSO: Ocean-atmosphere interaction in the tropics. - 5.2.1 Characteristics of ENSO. - 5.2.2 ENSO and air-sea coupling. - 5.2.3 The ENSO cycle. - 5.2.4 The impact of ENSO in the tropics beyond the Pacific Basin. - 5.2.5 The impact of ENSO in the extra-tropics. - 5.2.6 ENSO and the Indian Monsoon. - 5.2.7 The extra-tropics and other tropical air-sea interaction. - Further reading. - 6 The ocean and natural climatic variability. - 6.1 The oceanic role in the geological evolution of climate. - 6.1.1 The Palaeozoic and early Mesozoic. - 6.1.2 The Cretaceous: a case study. - 6.1.3 Tertiary climates. - 6.2 The ocean and Quaternary glaciation. - 6.2.1 Interglacial termination. - 6.2.2 Glacial termination. - 6.3 The ocean and Holocene climate. - 6.3.1 The climatic optimum. - 6.3.2 The last 5000 years. - 6.4 Marine climatic change during the twentieth century. - 6.4.1 The instrumental record. - 6.4.2 Global trends in marine climate. - 6.4.3 Marine climatic change over the Pacific Ocean. - 6.4.4 Marine climatic change over the Indian Ocean. - 6.4.5 Marine climatic change over the Atlantic Ocean. - Further reading. - 7 The ocean and climatic change. - 7.1 Natural variability. - 7.1.1 Solar variability. - 7.1.2 Orbital changes. - 7.1.3 Volcanic impact on climate. - 7.1.4 Cometary impact. - 7.1.5 Internal climatic instability. - 7.2 Anthropogenic forcing of climate. - 7.2.1 Trace gases. - 7.2.2 Aerosols. - 7.2.3 Land surface changes. - 7.2.4 Climatic feedbacks. - 7.3 The climate of the future. - 7.3.1 Numerical models of the atmosphere and ocean. - 7.3.2 Climate with doubled CO2. - 7.3.3 Modelling the transient response to CO2 increase. - 7.3.4 Detection of climatic change. - Further reading. - Appendixes. - A Useful constants and the electromagnetic spectrum. - B Periodic table and electron orbital configuration. - C Stability, potential temperature and density. - D Rossby waves in the atmosphere and ocean. - Glossary. - Bibliography. - Index.

Description / Table of Contents: The oceans are an integral and important part of the global climate system. It is now widely accepted that human activities are inducing global climatic change. However, definitive evidence for climatic change driven by mankind remains elusive, despite extensive research. One reason for this is the significant role that oceans play in regulating the climate system's response to change. The oceans store immense amounts of heat and moisture, acting as a giant flywheel to the climate system, moderating change but prolonging it once change commences. The oceans also store vast amounts of atmospheric carbon dioxide, thus having a possible regulating effect on greenhouse warming driven by human activity. How is carbon dioxide and heat stored in the ocean? Are these mechanisms sensitive to climatic change? Could they interact with climatic change itself to accentuate or regulate such change? The exploration of these questions, among others, underlies this book. The interaction between the oceans and the atmosphere - and hence the climate - is complex and multi-faceted, requiring an understanding of many processes bridging conventional scientific disciplines. After a general introduction to the climate system, successive chapters describe how physical, biological and chemical processes combine to affect the ocean-atmosphere interaction over timescales from minutes to millenia, and their role in affecting climatic change in the past, present and future. This comprehensive textbook introducing the multi-disciplinary controls on the ocean-atmosphere interaction will prove an ideal course and reference book for undergraduates studying earth and environmental sciences, oceanography, meteorology and climatology. The book will also be useful for students and teachers of geography, physics, chemistry, and biology.

Type of Medium: Monograph available for loan

Pages: XII, 266 S. : Ill., graph. Darst., Kt.

Edition: Repr.

ISBN: 0521582687

Branch Library: AWI Library

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The DNP by 2015 (2023)

Auerbach, David I. ; Martsolf, Grant R. ; Pearson, Marjorie L. ; [et al.]

RAND Corporation

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Publication Date: 2023-10-05

Description: In 2004, members of the American Association of Colleges of Nursing approved the position that all master’s programs for advanced-practice registered nurses should transition to doctorate of nursing programs by 2015. This report describes the results of a RAND study seeking to understand nursing school program offerings and the reasons for those offerings, as well as the barriers or facilitators to full adoption of doctorate programs.

Keywords: Health Sciences ; Education ; Business ; bic Book Industry Communication::K Economics, finance, business & management::KC Economics::KCF Labour economics ; bic Book Industry Communication::K Economics, finance, business & management::KJ Business & management::KJM Management & management techniques::KJMV Management of specific areas::KJMV2 Personnel & human resources management ; bic Book Industry Communication::J Society & social sciences::JN Education::JNP Adult education, continuous learning ; bic Book Industry Communication::M Medicine::MR Medical study & revision guides & reference material ; bic Book Industry Communication::M Medicine::MQ Nursing & ancillary services::MQC Nursing

Language: English

Format: image/jpeg

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Assessing the Quality and Value of Psychological Health Care in Civilian Health Plans (2023)

Martsolf, Grant R. ; Osilla, Karen Chan ; Mandel, Daniel ; [et al.]

RAND Corporation

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Publication Date: 2023-10-05

Description: The Military Health System (MHS) provides care to many patients with psychological health conditions, but little is known about the degree to which care adheres to evidence-based clinical practice guidelines or improves patient outcomes. RAND described civilian health plans’ approaches to measuring the quality of psychological health care as part of a larger effort to develop a framework for monitoring the quality of care in the MHS.

Keywords: Health Sciences ; Psychology ; bic Book Industry Communication::M Medicine::MB Medicine: general issues::MBQ Medicolegal issues ; bic Book Industry Communication::M Medicine::MJ Clinical & internal medicine ; bic Book Industry Communication::J Society & social sciences::JM Psychology

Language: English

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Measuring the Quality of Care for Psychological Health Conditions in the Military Health System (2023)

Hepner, Kimberly A. ; Roth, Carol P. ; Farris, Coreen ; [et al.]

RAND Corporation

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Publication Date: 2023-10-05

Description: To inform improvements to the quality of care delivered by the military health system for posttraumatic stress disorder and major depressive disorder, researchers developed a framework and identified, developed, and described a candidate set of measures for monitoring, assessing, and improving the quality of care. This document describes their research approach and the measure sets that they identified.

Keywords: Psychology ; Health Sciences ; bic Book Industry Communication::M Medicine::MB Medicine: general issues::MBQ Medicolegal issues ; bic Book Industry Communication::M Medicine::MJ Clinical & internal medicine ; bic Book Industry Communication::J Society & social sciences::JM Psychology::JMP Abnormal psychology

Language: English

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The Impact of Full Practice Authority for Nurse Practitioners and Other Advanced Practice Registered Nurses in Ohio (2023)

Martsolf, Grant R. ; Auerbach, David I. ; Arifkhanova, Aziza

RAND Corporation

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Publication Date: 2024-03-31

Description: RAND Corporation researchers identified three high-quality studies addressing the effect that scope-of-practice (SOP) laws can have on health-care access, quality, and costs and describe the potential effect of removing SOP restrictions for advanced practice registered nurses in the state of Ohio.

Keywords: Health Sciences ; thema EDItEUR::M Medicine and Nursing::MB Medicine: general issues::MBP Health systems and services ; thema EDItEUR::M Medicine and Nursing::MB Medicine: general issues::MBQ Medicolegal issues ; thema EDItEUR::M Medicine and Nursing::MQ Nursing and ancillary services::MQC Nursing ; thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine

Language: English

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Holocene sediment transport from the glaciated margin of East/Northeast Greenland to the N Iceland shelves

Andrews, John T ; Bigg, Grant R ; Wilton, David J

PANGAEA

In: Supplement to: Andrews, John T; Bigg, Grant R; Wilton, David J (2014): Holocene ice-rafting and sediment transport from the glaciated margin of East Greenland (67–70°N) to the N Iceland shelves: detecting and modelling changing sediment sources. Quaternary Science Reviews, 91, 204-217, https://doi.org/10.1016/j.quascirev.2013.08.019

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Publication Date: 2023-05-12

Description: We examine variations in the ice-rafted sources for sediments in the Iceland/East Greenland offshore marine archives by utilizing a sediment unmixing model and link the results to a coupled iceberg-ocean model. Surface samples from around Iceland and along the E/NE Greenland shelf are used to define potential sediment sources, and these are examined within the context of the down-core variations in mineralogy in the 〈2 mm sediment fraction from a transect of cores across Denmark Strait. A sediment unmixing model is used to estimate the fraction of sediment 〈2 mm off NW and N Iceland exported across Denmark Strait; this averaged between 10 and 20%. Both the sediment unmixing model and the coupled iceberg-ocean model are consistent in finding that the fraction of "far-travelled" sediments in the Denmark Strait environs is overwhelmingly of local, mid-East Greenland, provenance, and therefore with a significant cross-channel component to their travel. The Holocene record of ice-rafted sediments denotes a three-part division of the Holocene in terms of iceberg sediment transport with a notable increase in the process starting ca 4000 cal yr BP. This latter increase may represent the re-advance during the Neoglacial period of land-terminating glaciers on the Geikie Plateau to become marine-terminating. The contrast in spectral signals between these cores and the 1500-yr cycle at VM28-14, just south of the Denmark Strait, combined with the coupled iceberg-model results, leads us to speculate that the signal at VM28-14 reflects pulses in overflow waters, rather than an ice-rafted signal.

Type: Dataset

Format: application/zip, 6 datasets

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(Table 8) SedUnMix estimated contribution from sources and standard deviations on the estimates for sediment cores MD99-2263 and MD99-2264

Andrews, John T ; Bigg, Grant R ; Wilton, David J

PANGAEA

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Publication Date: 2023-05-12

Keywords: AGE; Average; COMPCORE; Composite Core; DEPTH, sediment/rock; Error; Iceland shelf; IMAGES V; Marion Dufresne (1995); MD114; MD99-2263_2264; Provenance/source; SedUnMix

Type: Dataset

Format: text/tab-separated-values, 1872 data points

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