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Crop yield, soil data, pest surveillance, livestock, food composition, precision farming
18,223 datasets
Tree-ring width data from El Malpais National Monument in New Mexico, covering 787 years from 750 to 37 BCE. The dataset was archived by NOAA's World Data Service for Paleoclimatology and originates from a study by Grissino-Mayer. It was last updated in the NOAA system in 1987.
Tree-ring width measurements from Sheep Mountain in California provide a paleoclimate record. The chronology covers 787 years, from 750 to -37 calendar years before present. Data is archived by NOAA's National Centers for Environmental Information.
Tree ring width measurements from Southern California's Network 41 site, providing a paleoclimate record. The chronology covers 508 years from 492 to -16 calendar years before present. Data is archived by NOAA National Centers for Environmental Information under the World Data Service for Paleoclimatology.
242 calendar years of tree ring data from Shenandoah National Park, Virginia, USA, covering the period from 195 to -47 years before present. The dataset is part of the NOAA/WDS Paleoclimatology archive, specifically from the Dougherty study. It was last updated in the NOAA system in 1997.
Arizona tree ring data from the Navajo National Monument provides a climate proxy record spanning 658 years, from 646 to 12 calendar years before present. The dataset was archived by NOAA's National Centers for Environmental Information under the World Data Service for Paleoclimatology. The original study was published in 1962.
Tree ring width measurements from Fossil Butte National Monument, Wyoming, provide a climate proxy record. The chronology spans 518 years, from 470 to -48 calendar years before present. The dataset was archived by NOAA's World Data Service for Paleoclimatology and last updated in 1998.
California's Lassen National Park provides a tree ring chronology spanning from 425 BC to 33 BC. The data includes parameters like ring width and density, archived by NOAA's National Centers for Environmental Information. This paleoclimatology study was published in 1983.
Tree ring measurements from the Sawtooth National Forest in Idaho provide a proxy record for past climate conditions. The data covers a 453-year period from 420 to -33 calendar years before present (BP). This paleoclimatology study is archived and maintained by the NOAA National Centers for Environmental Information.
Tree ring width measurements from a stand in Acadia National Park, Maine, USA. The chronology covers 106 years, from 64 to -42 calendar years before present. Data is archived by NOAA's National Centers for Environmental Information under the World Data Service for Paleoclimatology, with a last update recorded in 1992.
152 calendar years of tree ring data from Stand 6 in Acadia National Park, Maine, USA. The dataset was archived by NOAA NCEI's World Data Service for Paleoclimatology and last updated in 1992. It is part of the International Tree-Ring Data Bank collection for paleoclimate research.
110 to 42 BCE tree ring data from Acadia National Park, Maine, USA, archived by NOAA's World Data Service for Paleoclimatology. The dataset provides parameters for dendrochronological analysis to reconstruct past climate conditions. This study was published by NOAA NCEI in 1992.
NOAA/WDS Paleoclimatology archives a tree-ring chronology dataset from Moore's Creek National Battlefield in North Carolina, USA. The data provides parameters for dendrochronological analysis, covering a time period from 105 to -35 calendar years before present. This study was published by NOAA National Centers for Environmental Information in 1985.
505 calendar years of fire history data are reconstructed from tree-ring records at the Continental Divide Saddle site in New Mexico. The dataset, archived by NOAA's World Data Service for Paleoclimatology, provides parameters related to fire events and dendrochronology. This study was published in 1992.
505 to -42 calendar years before present (BP) of fire history data derived from tree rings at Continental Divide Peak, New Mexico. The dataset is archived by the NOAA National Centers for Environmental Information (NCEI) World Data Service for Paleoclimatology. The study was last updated in 1992.
NOAA and FDA collaborated to assess seafood safety after the 2010 Deepwater Horizon oil spill. The dataset includes levels of polycyclic aromatic hydrocarbons (PAHs) and the dispersant component dioctyl sodium sulfosuccinate in edible tissues of commercially and recreationally important seafood species from Federal waters. Thousands of seafood samples collected during reopening, surveillance, dockside, and marketplace operations were analyzed using validated high-performance liquid chromatography and mass spectrometry methods.
The Environmental Sample Processor (ESP) autonomously collects and analyzes water samples in Puget Sound, telemetering results in near real-time. Probes for three primary harmful algae (Alexandrium, Heterosigma, and Pseudo-nitzschia) and pathogenic Vibrio spp. have been successfully tested. This project aims to provide value-added data to stakeholders for early warning systems to reduce economic losses and improve seafood safety.
Cropped face images derived from the FaceForensics++ dataset using MTCNN. The dataset is intended for training and evaluating deepfake detection models. The author, organization, and specific scale are unknown.
Food nutrition data likely contains information on the nutritional composition of various food items. The dataset is published on Kaggle, but its specific scope, size, and creation details are not provided in the metadata. Further details such as the number of records, specific nutrients covered, and the source organization are unknown.
Soil data from the South Fork McKenzie River in Oregon, USA quantifies the impact of the 2020 Holiday Farm wildfire. Measurements include sample depth, moisture content, texture percentages, and nitrate/nitrite/carbon metrics, collected in July 2020, February 2021, and June 2021. The study by the University of Nottingham and US Forest Service partners compares soil response in restored versus unrestored river reaches.
2017 data from a long-term drought experiment in a Brazilian tropical rainforest assesses functional traits on 76 saplings. Seventeen traits relating to plant metabolism and hydraulics were collected fifteen years after the experiment's start. The dataset compares 43 saplings from a Control plot with 33 from a 1ha drought plot designed to exclude 50% of incoming rainfall.