Natural gas rose to 3.36 USD/MMBtu on July 11, 2025, up 0.58% from the previous day. Over the past month, Natural gas's price has fallen 3.89%, but it is still 44.10% higher than a year ago, according to trading on a contract for difference (CFD) that tracks the benchmark market for this commodity. Natural gas - values, historical data, forecasts and news - updated on July of 2025.

Data and statistics on natural gas prices, exploration and reserves, production, imports and exports, storage, pipelines, and consumption. Data released on a weekly, monthly and annual basis. International data on natural gas production, consumption, imports and exports, CO2 emissions, and reserves.

Working gas held in storage facilities in the United States increased by 53 billion cubic feet in the week ending July 4 of 2025 . This dataset provides the latest reported value for - United States Natural Gas Stocks Change - plus previous releases, historical high and low, short-term forecast and long-term prediction, economic calendar, survey consensus and news.

UK Gas rose to 85.31 GBp/thm on July 11, 2025, up 1.32% from the previous day. Over the past month, UK Gas's price has fallen 0.15%, but it is still 17.29% higher than a year ago, according to trading on a contract for difference (CFD) that tracks the benchmark market for this commodity. UK Natural Gas - values, historical data, forecasts and news - updated on July of 2025.

United States Natural Gas Production: New-Well: Haynesville data was reported at 386.300 Cub ft/Day mn in Mar 2025. This records an increase from the previous number of 382.800 Cub ft/Day mn for Feb 2025. United States Natural Gas Production: New-Well: Haynesville data is updated monthly, averaging 492.300 Cub ft/Day mn from Jan 2013 (Median) to Mar 2025, with 147 observations. The data reached an all-time high of 1,009.700 Cub ft/Day mn in Jan 2023 and a record low of 171.800 Cub ft/Day mn in Sep 2016. United States Natural Gas Production: New-Well: Haynesville data remains active status in CEIC and is reported by U.S. Energy Information Administration. The data is categorized under Global Database’s United States – Table US.RB011: Natural Gas Production: by Region.

The average monthly price for natural gas in the United States amounted to **** nominal U.S. dollars per million British thermal units (Btu) in May 2025. By contrast, natural gas prices in Europe were about three times higher than those in the U.S. Prices in Europe tend to be notably higher than those in the U.S. as the latter benefits from being a major hydrocarbon producer. Europe's import reliance European prices for natural gas rose most notable throughout the second half of 2021 and much of 2022, peaking at over ** U.S. dollars per million Btu in August 2022. The sharp rise was due to supply chain issues and economic strain following the COVID-19 pandemic, which was further exacerbated by Russia’s invasion of Ukraine in early 2022. As a result of the war, many countries began looking for alternative sources, and Russian pipeline gas imports to the European Union declined as a result. Meanwhile, LNG was a great beneficiary, with LNG demand in Europe rising by more than ** percent between 2021 and 2023. How domestic natural gas production shapes prices As intimated, the United States’ position among the leaders of worldwide natural gas production is one of the main reasons for why prices for this commodity are so low across the country. In 2023, the U.S. produced more than ************ cubic meters of natural gas, which allays domestic demand and allows for far lower purchasing prices.

United States Natural Gas Price: EIA: Industrial data was reported at 3.750 USD/1000 Cub ft in Sep 2018. This records an increase from the previous number of 3.670 USD/1000 Cub ft for Aug 2018. United States Natural Gas Price: EIA: Industrial data is updated monthly, averaging 3.800 USD/1000 Cub ft from Jan 1984 (Median) to Sep 2018, with 417 observations. The data reached an all-time high of 13.060 USD/1000 Cub ft in Jul 2008 and a record low of 2.230 USD/1000 Cub ft in Jul 1991. United States Natural Gas Price: EIA: Industrial data remains active status in CEIC and is reported by Energy Information Administration. The data is categorized under Global Database’s United States – Table US.P002: Energy Price.

A. SUMMARY The Municipal Natural Gas Equipment Inventory serves to catalog natural gas-fueled equipment used in municipally owned buildings. This inventory, implemented by the SF Environment Department, aims to establish an understanding of the scope of work needed to electrify municipal buildings and inform an effective and collaborative planning process. This effort was identified as an action in Section BO-2.4 of the 2021 Climate Action Plan and is included in the Environment Code Chapter 7 (Municipal Green Building Requirements).

B. HOW THE DATASET IS CREATED The list of buildings required to report data for the Municipal Natural Gas Equipment Inventory was compiled by cross-referencing the City’s Facility Systems of Record and the 2020 municipal benchmarking report to identify all city-owned buildings with non-zero carbon emissions. Numerous municipal buildings are exempt from these reporting requirements, including facilities of the Port of San Francisco and buildings with a primary purpose of providing collection, storage, treatment, delivery, distribution, and/or transmission of water, wastewater, and/or power utilities. Each department received an inventory template, provided by the Environment Department, to submit high level building data and detailed information on each piece of natural gas equipment in use in these buildings. Departments were asked to self-report the required building and equipment data over the course of a 6-month data collection period in 2023 and are asked to keep this inventory up to date in the following years as equipment is replaced.

C. UPDATE PROCESS The inventory will be regularly updated by department representatives via the inventory PowerApp. When a gas-powered equipment item is retired or replaced, departments are asked to mark it as no longer in use and provide information on any electric replacement equipment, if applicable. While departments have the flexibility to update the inventory at any time, they are encouraged to do so at 6 month intervals at the minimum.

Updated inventory data will be automatically reflected in this dataset.

D. HOW TO USE THIS DATASET It is important to note that this dataset does not include facilities of the Port of San Francisco and buildings with a primary purpose of providing collection, storage, treatment, delivery, distribution, and/or transmission of water, wastewater, and/or power utilities, in accordance with Environment Code Chapter 7 exemptions.

The United States, which was the world's leading natural gas-producing country in 2023 increased annual production by 42 billion cubic meters in 2023. Of the leading natural gas producing countries in the world, Russia had the largest year-over-year decrease that year, at nearly 32 billion cubic meters. This was largely a reflection of sanctions imposed following Russia's invasion of Ukraine. The U.S. natural gas industry The total volume of natural gas produced worldwide amounted to 4.08 trillion cubic meters in 2023. The U.S. is not only the world’s largest natural gas-producing country, it is also the largest exporter of natural gas (including liquefied natural gas). Nevertheless, the largest share of gas produced in the country is consumed domestically. U.S. shale gas revolution Due to advances in hydraulic fracturing (fracking) technology and horizontal drilling, shale gas resources in the U.S. became economically feasible to develop. Shale gas production has also offset production declines from conventional resources in the country. This development has increased U.S. natural gas reserves considerably.

This dataset provides national location information for publicly available natural gas geochemistry data reported in mol%. The data were collected from the U.S. Geological Survey (USGS) Energy Geochemistry Database (EGDB), Bureau of Land Management (BLM) technical notes, and reacquired Bureau of Mines technical reports. This dataset represents an aggregate of multiple datasets in one unified system with a number of attributes for use in resource assessment.

United States Legacy Natural Gas Production Change: Haynesville data was reported at -432.809 Cub ft/Day bn in Apr 2020. This records a decrease from the previous number of -429.757 Cub ft/Day bn for Mar 2020. United States Legacy Natural Gas Production Change: Haynesville data is updated monthly, averaging -291.496 Cub ft/Day bn from Jan 2007 (Median) to Apr 2020, with 160 observations. The data reached an all-time high of -121.052 Cub ft/Day bn in Jan 2007 and a record low of -613.081 Cub ft/Day bn in Sep 2011. United States Legacy Natural Gas Production Change: Haynesville data remains active status in CEIC and is reported by Energy Information Administration. The data is categorized under Global Database’s United States – Table US.RB010: Natural Gas Production: by Region.

This data set contains surface locations for oil and gas wells located in the Pacific Coast federal waters. Note: Wells are being added or modified continuously; obtaining updates of this database are required to know the true distribution of well data.Because GIS projection and topology functions can change or generalize coordinates, these GIS files are considered to be approximate and are NOT an OFFICIAL record.Contains the well surface locations as of April 2015.

United States - U.S. Natural Gas Liquid Composite Price was 7.51000 $ Per Mil. BTU in March of 2025, according to the United States Federal Reserve. Historically, United States - U.S. Natural Gas Liquid Composite Price reached a record high of 15.88000 in September of 2011 and a record low of 2.85000 in April of 2020. Trading Economics provides the current actual value, an historical data chart and related indicators for United States - U.S. Natural Gas Liquid Composite Price - last updated from the United States Federal Reserve on July of 2025.

This project represents the data used in “Influences of potential oil and gas development and future climate on sage-grouse declines and redistribution.” The data sets describe greater sage-grouse (Centrocercus urophasianus) population change, summarized in different boundaries within the Wyoming Landscape Conservation Initiative (WLCI; southwestern Wyoming). Population changes were based on different scenarios of oil and gas development intensities, projected climate models, and initial sage-grouse population estimates. Description of data sets pertaining to this project: Greater sage-grouse population change (percent change) in a high oil and gas development, low population estimate scenario, and with and without effects of climate change. 1. Greater sage-grouse population change (percent change) over 50-years in a high oil and gas development, low population estimate scenario, and with effects of climate change under an RCP 8.5 scenario (2050) 2. Greater sage-grouse population change (percent change) in a low oil and gas development, high population estimate scenario, and with no effects of climate change (2006-2062) 3. Greater sage-grouse population change (percent change) over 50-years in a low oil and gas development, low population estimate scenario, and with effects of climate change under an RCP 8.5 scenario (2050) 4. Greater sage-grouse population change (percent change) in a moderate oil and gas development, high population estimate scenario, and with no effects of climate change (2006-2062) 5. Greater sage-grouse population change (percent change) in a high oil and gas development, low population estimate scenario, and with no effects of climate change (2006-2062) The oil and gas development scenario were based on an energy footprint model that simulates well, pad, and road patterns for oil and gas recovery options that vary in well types (vertical and directional) and number of wells per pad and use simulation results to quantify physical and wildlife-habitat impacts. I applied the model to assess tradeoffs among 10 conventional and directional-drilling scenarios in a natural gas field in southwestern Wyoming (see Garman 2017). The effects climate change on sagebrush were developed using the National Center for Atmospheric Research (NCAR) Community Climate System Model (CCSM, version 4) climate model and representative concentration pathway 8.5 scenario (emissions continue to rise throughout the 21st century). The projected climate scenario was used to estimate the change in percent cover of sagebrush (see Homer et al. 2015). The percent changes in sage-grouse population sizes represented in these data are modeled using an individual-based population model that simulates dynamics of populations by tracking movements of individuals in dynamically changing landscapes, as well as the fates of individuals as influenced by spatially heterogeneous demography. We developed a case study to assess how spatially explicit individual based modeling could be used to evaluate future population outcomes of gradual landscape change from multiple stressors. For Greater sage-grouse in southwest Wyoming, we projected oil and gas development footprints and climate-induced vegetation changes fifty years into the future. Using a time-series of planned oil and gas development and predicted climate-induced changes in vegetation, we re-calculated habitat selection maps to dynamically modify future habitat quantity, quality, and configuration. We simulated long-term sage-grouse responses to habitat change by allowing individuals to adjust to shifts in habitat availability and quality. The use of spatially explicit individual-based modeling offered an important means of evaluating delayed indirect impacts of landscape change on wildlife population outcomes. This process and the outcomes on sage-grouse population changes are reflected in this data set.

Natural gas onshore facilities used to receive, unload, load, store, gasify, liquefy, process and transport by ship, natural gas that is imported from a foreign country, exported to a foreign country, or interior commerce. Mapping Resources implemented as part of the North American Cooperation on Energy Information (NACEI) between the Department of Energy of the United States of America, the Department of Natural Resources of Canada, and the Ministry of Energy of the United Mexican States. The participating Agencies and Institutions shall not be held liable for improper or incorrect use of the data described and/or contained herein. These data and related graphics, if available, are not legal documents and are not intended to be used as such. The information contained in these data is dynamic and may change over time and may differ from other official information. The Agencies and Institutions participants give no warranty, expressed or implied, as to the accuracy, reliability, or completeness of these data.

United States Natural Gas Production Change:: Existing: Appalachia data was reported at -995.000 Cub ft/Day mn in Mar 2025. This records a decrease from the previous number of -975.000 Cub ft/Day mn for Feb 2025. United States Natural Gas Production Change:: Existing: Appalachia data is updated monthly, averaging -928.000 Cub ft/Day mn from Jan 2013 (Median) to Mar 2025, with 147 observations. The data reached an all-time high of -181.000 Cub ft/Day mn in Jan 2013 and a record low of -1,422.000 Cub ft/Day mn in Apr 2020. United States Natural Gas Production Change:: Existing: Appalachia data remains active status in CEIC and is reported by U.S. Energy Information Administration. The data is categorized under Global Database’s United States – Table US.RB011: Natural Gas Production: by Region.

Northwest Natural Gas reported $2.31B in Debt for its fiscal quarter ending in March of 2025. Data for Northwest Natural Gas | NWN - Debt including historical, tables and charts were last updated by Trading Economics this last July in 2025.

Northwest Natural Gas reported 18.84 in PE Price to Earnings for its fiscal quarter ending in December of 2024. Data for Northwest Natural Gas | NWN - PE Price to Earnings including historical, tables and charts were last updated by Trading Economics this last July in 2025.

United States Legacy Natural Gas Production Change: Permian data was reported at -434.237 Cub ft/Day bn in Apr 2020. This records a decrease from the previous number of -428.905 Cub ft/Day bn for Mar 2020. United States Legacy Natural Gas Production Change: Permian data is updated monthly, averaging -124.518 Cub ft/Day bn from Jan 2007 (Median) to Apr 2020, with 160 observations. The data reached an all-time high of -88.855 Cub ft/Day bn in Jan 2010 and a record low of -434.237 Cub ft/Day bn in Apr 2020. United States Legacy Natural Gas Production Change: Permian data remains active status in CEIC and is reported by Energy Information Administration. The data is categorized under Global Database’s United States – Table US.RB010: Natural Gas Production: by Region.

United States Legacy Natural Gas Production Change: Niobrara data was reported at -195.220 Cub ft/Day bn in Apr 2020. This records a decrease from the previous number of -192.499 Cub ft/Day bn for Mar 2020. United States Legacy Natural Gas Production Change: Niobrara data is updated monthly, averaging -123.170 Cub ft/Day bn from Jan 2007 (Median) to Apr 2020, with 160 observations. The data reached an all-time high of -85.141 Cub ft/Day bn in Jan 2007 and a record low of -195.220 Cub ft/Day bn in Apr 2020. United States Legacy Natural Gas Production Change: Niobrara data remains active status in CEIC and is reported by Energy Information Administration. The data is categorized under Global Database’s United States – Table US.RB010: Natural Gas Production: by Region.