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1. Diatom amplicon sequencing variants (ASVs) from Narragansett Bay, Rhode Island, USA from 2008-2014

   https://doi.org/10.26008/1912/BCO-DMO.911102.1  

   Fontaine, Diana N; Rynearson, Tatiana A; Fontaine, Diana N (January 2023, Biological and Chemical Oceanography Data Management Office (BCO-DMO))

   These data include diatom composition information from a fixed sampling site in Narragansett, Bay, RI, USA over six years between dates 2008-12-09 and 2014-12-30. Sampling occurred monthly from 2008 to 2013 and twice per month in 2014. Diatom composition data, in the form of amplicon sequencing variants, were obtained via high throughput sequencing of filtered biomass samples. Diatoms are important contributors to marine primary production; however, their vast diversity makes species-level identification challenging. This dataset, collected over many years, includes diatom composition data at a more detailed level than ever before observed in Narragansett Bay and highlights the importance of time series for understanding phytoplankton dynamics in coastal systems. These data were collected by various students over the years with supervision from Dr. Tatiana Rynearson of URI's Graduate School of Oceanography. Diana Fontaine processed these data and together, Dr. Rynearson and her student Ms. Fontaine published their results in Limnology and Oceanography. 

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2. Paleointensity results from the Jurassic: New constraints from submarine basaltic glasses of ODP Site 801C (Dataset)

   https://doi.org/10.7288/V4/MAGIC/19560  

   Tauxe, L; Gee, J S; Steiner, M B; Staudigel, H (June 2022, Magnetics Information Consortium (MagIC))

   Paleomagnetic, rock magnetic, or geomagnetic data found in the MagIC data repository from a paper titled: Paleointensity results from the Jurassic: New constraints from submarine basaltic glasses of ODP Site 801C 

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3. Data from: Measuring Estuarine Total Exchange Flow from Discrete Observations

   https://doi.org/10.6075/J0DJ5FS8  

   Lemagie_Emily, P; Giddings, Sarah N; MacCready, Parker; Seaton, Charles; Wu, Xiaodong (January 2025, UC San Diego Library Digital Collections)

   The two-way exchange of water and properties such as heat and salinity as well as other suspended material between estuaries and the coastal ocean is important to regulating these marine habitats. This exchange can be challenging to measure. The Total Exchange Flow (TEF) method provides a way to organize the complexity of this exchange into distinct layers based on a given water property. This method has primarily been applied in numerical models that provide high resolution output in space and time. The goal here is to identify the minimum horizontal and vertical sampling resolutions needed to measure TEF depending on estuary type. Results from three realistic hydrodynamic models were investigated. These models included three estuary types: bay (San Diego Bay: data/SDB_*.mat files), salt-wedge (Columbia River: data/CR_*.mat files), and fjord (Salish Sea: data/SJF_*.mat files). The models were sampled using three different mooring strategies, varying the number of mooring locations and sample depths with each method. This repository includes the Matlab code for repeating these sampling methods and TEF calculations using the data from the three estuary models listed above. 

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4. Recovering Probability Distributions from Missing Data

   Tian, Jin (January 2017, Proceedings of the Ninth Asian Conference on Machine Learning)

   A probabilistic query may not be estimable from observed data corrupted by missing values if the data are not missing at random (MAR). It is therefore of theoretical interest and practical importance to determine in principle whether a probabilistic query is estimable from missing data or not when the data are not MAR. We present algorithms that systematically determine whether the joint probability distribution or a target marginal distribution is estimable from observed data with missing values, assuming that the data-generation model is represented as a Bayesian network, known as m-graphs, that not only encodes the dependencies among the variables but also explicitly portrays the mechanisms responsible for the missingness process. The results significantly advance the existing work. 

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5. Learning from Uncertain Data: From Possible Worlds to Possible Models

   Zhu, Jiongli; Feng, Su; Glavic, Boris; Salimi, Babak (February 2025, NeurIPS 2024)

   We introduce an efficient method for learning linear models from uncertain data, where uncertainty is represented as a set of possible variations in the data, leading to predictive multiplicity. Our approach leverages abstract interpretation and zonotopes, a type of convex polytope, to compactly represent these dataset variations, enabling the symbolic execution of gradient descent on all possible worlds simultaneously. We develop techniques to ensure that this process converges to a fixed point and derive closed-form solutions for this fixed point. Our method provides sound over-approximations of all possible optimal models and viable prediction ranges. We demonstrate the effectiveness of our approach through theoretical and empirical analysis, highlighting its potential to reason about model and prediction uncertainty due to data quality issues in training data. 

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