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Every year, the Ministry of the Environment Conservation and Parks publicly releases the Environmental Compliance Report on the Ontario Data Catalogue.
In Ontario, all facilities with regulated wastewater discharges or air emissions under the Ontario Water Resources Act and the Environmental Protection Act must monitor and report any cases where approved operating limits have been exceeded. That information is compiled annually into the Environmental Compliance Report.
Currently the latest three years are available directly below in Excel and can be viewed in CSV. Earlier years have been zipped up for ease of viewing and download.
What is the report
The report demonstrates how we are meeting our Made-in-Ontario Environment Plan commitment to hold polluters accountable for their actions. It includes information about steps taken by facilities to achieve compliance with environmental laws and information about ministry-led enforcement actions, including penalties and prosecutions.
Keywords: private sewage, industrial sewage, environmental compliance, ecr
Reporting units of sample results [where 1 picoCurie (pCi) = 1 trillionth (1E-12) Curie (Ci)]: • Water Samples are reported in pCi/L. Data Quality Disclaimer: This database is for informational use and is not a controlled quality database. Efforts have been made to ensure accuracy of data in the database; however, errors and omissions may occur. Examples of potential errors include: • Data entry errors. • Lab results not reported for entry into the database. • Missing results due to equipment failure or unable to retrieve samples due to lost or environmental hazards. • Translation errors – the data has been migrated to newer data platforms numerous times, and each time there have been errors and data losses. Error Results are the calculated uncertainty for the sample measurement results and are reported as (+/-). Environmental Sample Records are from the year 1998 until present. Prior to 1998 results were stored in hardcopy, in a non-database format. Requests for results from samples taken prior to 1998 or results subject to quality assurance are available from archived records and can be made through the DEEP Freedom of Information Act (FOIA) administrator at deep.foia@ct.gov. Information on FOIA requests can be found on the DEEP website. FOIA Administrator Office of the Commissioner Department of Energy and Environmental Protection 79 Elm Street, 3rd Floor Hartford, CT 06106
Coastal shark community structure was quantified across 10 geographic areas in the northeastern Gulf of Mexico using fishery-independent gillnet data from 2003-2011. A total of 3,205 sets were made in which 14,244 carcharhiniform sharks, primarily juveniles, were caught comprising 11 species from three families. Atlantic sharpnose sharks (Rhizoprionodon terraenovae) were the most abundant speci...
EPA regulations codified in 40 CFR Part 60 and 63 require affected sources to perform emissions source tests, conduct continuous emissions monitoring, and submit compliance and emissions reports . EPA is promulgating "E-Reporting" rules to require affected sources to electronically submit source test results, emissions monitoring data, compliance reports, and emissions reports to EPA. As a result the EPA has developed the Compliance and Emissions Data Reporting Interface (CEDRI) which is located on EPA's Central Data Exchange (CDX). The CDX Web is the application used by EPA programs and various stakeholders to manage environmental data transmitted to EPA in order to meet EPA's reporting requirements.
The Combined Environmental Regulatory Information System – North Dakota (CERIS-ND) is an online portal for the regulated community to complete required regulatory actions including: electronic permitting, licensing, notifications, and reports.It is a tool for the centralized management of regulated entities including permit and license management, document management, compliance reporting, inspections and evaluations, electronic payment, and spatial data management. CERIS-ND makes environmental compliance permitting and reporting easier for the regulated community. It makes environmental records open to the regulated community and the public; thus, increasing our transparency. And it meets the business needs of the Department by reducing repetitive data entry and paper handling.E-Permitting & LicencingElectronic reporting and notificationsData hub for public transparency and for submitting to EPA
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The global Environmental Data Loggers market size was valued at $1.8 billion in 2023 and is projected to reach $3.6 billion by 2032, growing at a compound annual growth rate (CAGR) of 7.5% during the forecast period. This remarkable growth is primarily driven by the increasing demand for accurate and reliable environmental monitoring solutions across various industries. The need for real-time data collection and analysis, coupled with advancements in sensor technology, has further fueled the growth of this market.
One of the key factors propelling the growth of the Environmental Data Loggers market is the increasing emphasis on regulatory compliance and environmental sustainability. Governments and regulatory bodies across the globe are mandating stringent environmental monitoring and reporting norms to ensure ecological balance and public safety. This has necessitated the adoption of advanced data logging solutions to accurately monitor various environmental parameters such as temperature, humidity, pressure, and air quality. Consequently, industries such as agriculture, environmental research, and industrial sectors are increasingly investing in sophisticated data loggers to meet compliance requirements and enhance operational efficiency.
Another significant growth driver is the rising awareness and focus on climate change and environmental conservation. The growing concerns about global warming, air pollution, and water contamination have heightened the need for continuous monitoring and analysis of environmental conditions. Environmental data loggers play a crucial role in collecting precise data on various environmental factors, enabling researchers and policymakers to make informed decisions and implement effective mitigation strategies. Additionally, the proliferation of smart cities and the integration of IoT technologies in environmental monitoring systems have further accelerated the demand for advanced data logging solutions.
The rapid advancements in sensor technologies and data analytics are also contributing to the market's growth. Modern data loggers are equipped with high-precision sensors and wireless connectivity options, allowing seamless data transmission and real-time monitoring. The integration of cloud computing and big data analytics has enabled the storage, processing, and analysis of vast amounts of environmental data, providing valuable insights for predictive maintenance and decision-making. Moreover, the increasing adoption of multi-parameter data loggers that can simultaneously monitor multiple environmental variables is expected to drive market growth during the forecast period.
Regionally, North America and Europe are expected to dominate the Environmental Data Loggers market, owing to the stringent environmental regulations and widespread adoption of advanced monitoring solutions. However, the Asia Pacific region is anticipated to witness the highest growth rate, driven by rapid industrialization, urbanization, and increasing awareness about environmental sustainability. Countries such as China, India, and Japan are investing heavily in environmental monitoring infrastructure, creating lucrative opportunities for market players.
Temperature data loggers are one of the most widely used types in the Environmental Data Loggers market. These devices are essential for monitoring temperature-sensitive environments such as cold storage, pharmaceuticals, and food transportation. Advancements in temperature sensor technology have significantly enhanced the accuracy and reliability of these loggers, making them indispensable for critical applications. The increasing demand for temperature monitoring in healthcare and medical sectors, especially during the COVID-19 pandemic for vaccine storage, has further accelerated the growth of this segment. Additionally, the emergence of wireless and cloud-connected temperature data loggers has simplified data collection and analysis, enhancing operational efficiency.
Humidity data loggers are another crucial product segment, extensively used in various industries including agriculture, HVAC systems, and museums. These loggers are designed to measure and record humidity levels over time, providing valuable data for maintaining optimal conditions. In agriculture, for example, humidity data loggers help farmers monitor soil moisture and air humidity, ensuring the health and productivity of crops. The growing emphasis on indoor air quality and climate control in commercial buildings and greenhouses is driving the demand for advanced humidi
Environmental risks are escalating—impacting business continuity, infrastructure planning, insurance modeling, and regulatory compliance. Access to high-quality, real-time environmental data is critical for organizations to anticipate, adapt, and act. Ambios provides Environmental Risk Data sourced from over 3,000+ sensors in 20 countries, covering diverse geographies and risk zones. All data is 100% first-party, directly collected, and verified by the Ambios decentralized network, ensuring transparency, traceability, and accuracy.
Use this data to fuel:
Ambios combines DePIN (Decentralized Physical Infrastructure Network) architecture with edge IoT to deliver scalable, verifiable, and hyperlocal environmental insights that power real-world decisions.
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The Environmental data includes energy consumed and generated as well as greenhouse gas emissions from Council's assets and a portion of its supply chain.
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This is a diagram of a ideal workflow for field data to data portal to use in reporting
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The global environmental data loggers market is experiencing steady growth, projected to reach a value of $1228.5 million in 2025, with a Compound Annual Growth Rate (CAGR) of 2.2% from 2025 to 2033. This growth is driven by increasing environmental monitoring needs across various sectors. The rising awareness of climate change and the urgent need for accurate environmental data to inform effective mitigation and adaptation strategies are key factors fueling market expansion. Furthermore, advancements in sensor technology, leading to smaller, more energy-efficient, and more accurate data loggers, are contributing significantly. The oil and gas industry relies heavily on these devices for pipeline monitoring and environmental impact assessments, while the defense sector utilizes them for surveillance and reconnaissance. Research institutions extensively employ these loggers for ecological studies and climate research. The market is segmented by application (Oil & Gas, Defense, Research, Others) and type (Solar Powered, Battery Powered), offering diverse solutions tailored to specific requirements. The increasing demand for real-time environmental monitoring in diverse applications and the deployment of sophisticated data analytics tools for better interpretation of collected data further bolster market expansion. The market's regional distribution demonstrates a strong presence in North America and Europe, driven by established environmental regulations and robust research infrastructure. However, developing economies in Asia-Pacific are witnessing significant growth potential due to increasing industrialization and rising environmental concerns. The adoption of sustainable energy sources, such as solar power, in data loggers is gaining traction, reducing operational costs and environmental impact. While the market faces constraints such as high initial investment costs and technological complexities associated with data analysis, the overall growth trajectory remains positive, spurred by the urgent need for comprehensive environmental monitoring and increasingly sophisticated technology solutions. The continued expansion of renewable energy, stricter environmental regulations globally, and technological advancements in sensor technology and data analytics are poised to drive further market growth over the forecast period. This comprehensive report offers an in-depth analysis of the global environmental data loggers market, projecting a market value exceeding $2 billion by 2028. It delves into key market segments, regional trends, technological advancements, and the competitive landscape, providing valuable insights for stakeholders across the industry. This report utilizes extensive market research and data analysis, including projected consumption values in the millions, to offer a detailed and actionable overview. High-search-volume keywords such as "environmental monitoring," "data acquisition," "IoT sensors," "wireless data loggers," and "oceanographic instrumentation" are strategically integrated throughout the report for enhanced search engine visibility.
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Global Environmental Data Loggers market size 2025 was XX Million. Environmental Data Loggers Industry compound annual growth rate (CAGR) will be XX% from 2025 till 2033.
This dataset contains information on chemicals that company's produce domestically or import into the United States during the principal reporting year. For the 2012 submission period, reporters provided 2011 manufacturing, processing, and use data and 2010 production volume data for their reportable chemical substances.
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The Environmental Intelligence Suite market is experiencing robust growth, driven by increasing concerns about climate change, stricter environmental regulations, and the rising need for sustainable business practices. The market, estimated at $5 billion in 2025, is projected to grow at a Compound Annual Growth Rate (CAGR) of 15% from 2025 to 2033. This significant expansion is fueled by several key factors. The adoption of cloud-based solutions is accelerating, offering scalability and cost-effectiveness to businesses of all sizes. Furthermore, the demand for real-time environmental data is surging across various sectors, including automotive, food and beverage, manufacturing, energy and utilities, and healthcare. These industries are leveraging environmental intelligence to optimize operations, reduce environmental impact, and enhance risk management. The integration of AI and machine learning is further enhancing the capabilities of these suites, enabling more accurate predictions and proactive mitigation strategies. However, the market's growth is not without challenges. High initial investment costs, a lack of standardization across platforms, and the need for skilled professionals to interpret and utilize complex environmental data are some of the key restraints. Despite these hurdles, the long-term prospects for the Environmental Intelligence Suite market remain positive. The increasing availability of affordable sensors, the growing adoption of IoT technologies, and government initiatives promoting sustainability are all expected to contribute to market expansion in the coming years. Key players like BreezoMeter, IBM, Cerensa, and Ecochain Technologies are actively shaping the market landscape through continuous innovation and strategic partnerships. Geographical expansion, particularly in developing economies, is also anticipated to drive substantial growth. The market is segmented by deployment (cloud-based and on-premise) and application across various industries, providing significant opportunities for specialized solutions and targeted market penetration.
This dataset contains supplementary information for a manuscript describing the ESS-DIVE (Environmental Systems Science Data Infrastructure for a Virtual Ecosystem) data repository's community data and metadata reporting formats. The purpose of creating the ESS-DIVE reporting formats was to provide guidelines for formatting some of the diverse data types that can be found in the ESS-DIVE repository. The 6 teams of community partners who developed the reporting formats included scientists and engineers from across the Department of Energy National Lab network. Additionally, during the development process, 247 individuals representing 128 institutions provided input on the formats. The primary files in this dataset are 10 data and metadata crosswalk for ESS-DIVE’s reporting formats (all files ending in _crosswalk.csv). The crosswalks compare elements used in each of the reporting formats to other related standards and data resources (e.g., repositories, datasets, data systems). This dataset also contains additional files recommended by ESS-DIVE’s file-level metadata reporting format. Each data file has an associated dictionary (files ending in _dd.csv) which provide a brief description of each standard or data resource consulted in the data reporting format development process. The flmd.csv file describes each file contained within the dataset.
This dataset lists the incoming documents received by the Texas Commission on Environmental Quality's Registration and Reporting Section in the Office of Waste for the petroleum storage tank and industrial/hazardous waste registration programs. Use this data to determine if the Registration and Reporting Section has received a document that you sent to them and if the section has processed the document.
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The Ministry of the Environment, Conservation and Parks (MECP) publishes an annual report on environmental penalties issued in the previous calendar year. Environmental penalties apply to plants in 9 industrial sectors and specific open and closed landfilling sites.
The 9 industrial sectors are as follows:
The report identifies the company and its location, penalty amount and a description of the violation.
The environmental penalty report is issued by March 31 each year.
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The Summary includes energy, water, waste, paper and transport across financial years.
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EPA has collected Chemical Data Reporting data since 1986. It was previously collected under the Inventory Update Reporting. Collections occur approximately every four years and reporting requirements changed from collection to collection. On this page you can access information from the latest collections, occurring in 2006, 2012, 2016, and 2020. Also includes more sparse data from 1986-2006, along with full documentation for all subject years (contained in the yearly folders).
This record provides an overview of the scope and research output of NESP Marine Biodiversity Hub Project B2 - "Analysis and elicitation to support State of the Environment reporting for the full spectrum of data availability". No data outputs are expected for this project. The availability and quality of observation data that may be used to support State of the Environment reporting lies on a spectrum from: (i) high quality (e.g. Reef Life Survey, Long term reef monitoring programme, Temperate Reef Monitoring programme, state-based MPA monitoring programmes); (ii) moderate quality (e.g. continuous plankton recorder, occasional by catch surveys); (iii) low quality (anecdotal information) to (iv) expert beliefs but no empirical observations. We currently lack a principled process for utilising and merging data of varying quality and from different sources to form a national perspective to support State of the Environment reporting. The key unifying principle to support such a process is the extent to which the available data is representative of the environmental asset in question. As the extent to which the empirical observations accurately represent the state of the asset in both space and time diminishes, so the reliance on expert opinion increases, to the limit where the only available information is expert opinion. This project will provide an over-arching framework to consider these issues, develop practical protocols for blending different data streams with or without experts’ judgement as appropriate, and thereby provide a foundation for improving State of Environment reporting for all types of data sources, from high to low quality. It will do this by developing and applying protocols to support development of the marine chapter of SoE 2106. This currently being developed within a separate CSIRO funded project. The project will use the experience of developing this chapter to make recommendations about appropriate methodologies for future environmental reporting. Importantly the statistical approach and analysis principles will be consistent regardless of the amount or quality of the information available. As a result the framework and analysis methods will remain relevant, even as the quality and quantity of environmental data at the department’s disposal changes. This will provide the consistency of analysis and reporting that is essential to SoE. Expected Outcomes • The provision of two or three examples that demonstrate a unified approach to the use of expert opinion in SoE reporting. These examples will be identified in close collaboration with the Department and will be developed in time to support the marine chapter of 2016 State of the Environment report, contingent on the availability of resources in the second year of the project and timely interaction with the department. • Assessments of the status and trends of environmental assets in the State of the Environment report will be based on a principled and statistically defensible process that can merges and utilises data from all sources including expert opinion.
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Get key insights from Market Research Intellect's Environmental Data Loggers Market Report, valued at USD 2.5 billion in 2024, and forecast to grow to USD 4.8 billion by 2033, with a CAGR of 8.2% (2026-2033).
https://www.ontario.ca/page/open-government-licence-ontariohttps://www.ontario.ca/page/open-government-licence-ontario
Every year, the Ministry of the Environment Conservation and Parks publicly releases the Environmental Compliance Report on the Ontario Data Catalogue.
In Ontario, all facilities with regulated wastewater discharges or air emissions under the Ontario Water Resources Act and the Environmental Protection Act must monitor and report any cases where approved operating limits have been exceeded. That information is compiled annually into the Environmental Compliance Report.
Currently the latest three years are available directly below in Excel and can be viewed in CSV. Earlier years have been zipped up for ease of viewing and download.
What is the report
The report demonstrates how we are meeting our Made-in-Ontario Environment Plan commitment to hold polluters accountable for their actions. It includes information about steps taken by facilities to achieve compliance with environmental laws and information about ministry-led enforcement actions, including penalties and prosecutions.
Keywords: private sewage, industrial sewage, environmental compliance, ecr