In 2023, the GDP of Massachusetts amounted to around *** billion U.S. dollars. In that year, the finance, insurance, real estate, rental, and leasing industry added about ****** billion chained 2017 U.S. dollars of value to the state GDP.

Home to MIT and Harvard, Massachusetts has its pick of innovators and the state's manufacturing sector reflects that, with strongholds in medical and surgical instruments, electronics and pharmaceuticals. This article will explore the latest data on Massachusetts manufacturers and share some essential insights provided by the state's top industrial companies.

Graph and download economic data for Gross Domestic Product: All Industry Total in Massachusetts (MANGSP) from 1997 to 2024 about MA, GSP, industry, GDP, and USA.

H-1B visa sponsorship trends for Massachusetts, covering top employers, salary insights, approval rates, and geographic distribution. Explore how work state impacts the U.S. job market under the H-1B program.

Morocco MA: GDP: % of Manufacturing: Other Manufacturing data was reported at 38.991 % in 2013. This records an increase from the previous number of 38.288 % for 2012. Morocco MA: GDP: % of Manufacturing: Other Manufacturing data is updated yearly, averaging 35.106 % from Dec 1976 (Median) to 2013, with 33 observations. The data reached an all-time high of 49.566 % in 2006 and a record low of 25.592 % in 1987. Morocco MA: GDP: % of Manufacturing: Other Manufacturing data remains active status in CEIC and is reported by World Bank. The data is categorized under Global Database’s Morocco – Table MA.World Bank: Gross Domestic Product: Share of GDP. Value added in manufacturing is the sum of gross output less the value of intermediate inputs used in production for industries classified in ISIC major division D. Other manufacturing, a residual, covers wood and related products (ISIC division 20), paper and related products (ISIC divisions 21 and 22), petroleum and related products (ISIC division 23), basic metals and mineral products (ISIC division27), fabricated metal products and professional goods (ISIC division 28), and other industries (ISIC divisions 25, 26, 31, 33, 36, and 37). Includes unallocated data. When data for textiles, machinery, or chemicals are shown as not available, they are included in other manufacturing.; ; United Nations Industrial Development Organization, International Yearbook of Industrial Statistics.; ;

H-1B visa sponsorship trends for Boston, MA, covering top employers, salary insights, approval rates, and geographic distribution. Explore how work city impacts the U.S. job market under the H-1B program.

Morocco MA: GDP: % of Manufacturing: Textiles and Clothing data was reported at 7.766 % in 2013. This records a decrease from the previous number of 8.995 % for 2012. Morocco MA: GDP: % of Manufacturing: Textiles and Clothing data is updated yearly, averaging 17.888 % from Dec 1976 (Median) to 2013, with 33 observations. The data reached an all-time high of 22.698 % in 1987 and a record low of 7.766 % in 2013. Morocco MA: GDP: % of Manufacturing: Textiles and Clothing data remains active status in CEIC and is reported by World Bank. The data is categorized under Global Database’s Morocco – Table MA.World Bank: Gross Domestic Product: Share of GDP. Value added in manufacturing is the sum of gross output less the value of intermediate inputs used in production for industries classified in ISIC major division D. Textiles and clothing correspond to ISIC divisions 17-19.; ; United Nations Industrial Development Organization, International Yearbook of Industrial Statistics.; ;

Mexico Exports: MA: Industrial & Non-Electric Laboratory Furnaces data was reported at 1.195 USD mn in Apr 2019. This records a decrease from the previous number of 3.811 USD mn for Mar 2019. Mexico Exports: MA: Industrial & Non-Electric Laboratory Furnaces data is updated monthly, averaging 1.176 USD mn from Jan 1993 (Median) to Apr 2019, with 316 observations. The data reached an all-time high of 11.986 USD mn in Oct 2015 and a record low of 0.024 USD mn in Oct 1994. Mexico Exports: MA: Industrial & Non-Electric Laboratory Furnaces data remains active status in CEIC and is reported by National Institute of Statistics and Geography. The data is categorized under Global Database’s Mexico – Table MX.JA012: Exports: Top Commodities.

Morocco MA: GDP: % of Manufacturing: Food, Beverages and Tobacco data was reported at 31.487 % in 2013. This records an increase from the previous number of 31.233 % for 2012. Morocco MA: GDP: % of Manufacturing: Food, Beverages and Tobacco data is updated yearly, averaging 30.507 % from Dec 1976 (Median) to 2013, with 33 observations. The data reached an all-time high of 37.228 % in 1991 and a record low of 16.704 % in 1980. Morocco MA: GDP: % of Manufacturing: Food, Beverages and Tobacco data remains active status in CEIC and is reported by World Bank. The data is categorized under Global Database’s Morocco – Table MA.World Bank: Gross Domestic Product: Share of GDP. Value added in manufacturing is the sum of gross output less the value of intermediate inputs used in production for industries classified in ISIC major division D. Food, beverages, and tobacco correspond to ISIC divisions 15 and 16.; ; United Nations Industrial Development Organization, International Yearbook of Industrial Statistics.; ;

Maleic Anhydride Market Outlook

The global maleic anhydride market size was valued at approximately USD 3.1 billion in 2023 and is projected to reach around USD 5.6 billion by 2032, growing at a compound annual growth rate (CAGR) of 6.5% during the forecast period. The market's growth is primarily driven by increasing demand in various end-user industries such as automotive, construction, and agriculture.

One of the key growth factors for the maleic anhydride market is its extensive use in the production of unsaturated polyester resins (UPR), which are increasingly employed in various industries for making fiberglass-reinforced plastics, coatings, and adhesives. The global construction and automotive industries, in particular, are experiencing robust growth, leading to a surge in demand for UPR. This trend is expected to continue as infrastructure projects and vehicle production ramp up worldwide, further bolstering the market for maleic anhydride.

Another significant growth factor is the rising use of maleic anhydride in the agricultural sector. It is a key component in the manufacture of agricultural chemicals, including herbicides, pesticides, and plant growth regulators. With the global population steadily increasing, there is an escalating need for enhanced agricultural productivity to meet food demands. This necessitates the use of advanced agricultural chemicals, thus driving the demand for maleic anhydride. Furthermore, increased research and development in agricultural biotechnology are likely to introduce new formulations and applications, augmenting market growth.

The expanding use of maleic anhydride in the production of lubricating oil additives is another critical factor propelling market growth. These additives are essential for improving the performance and longevity of lubricants used in automotive and industrial machinery. As the global automotive industry continues to grow and the demand for machinery in various industrial sectors increases, the need for high-performance lubricants is expected to rise, thereby boosting the demand for maleic anhydride.

Regionally, Asia Pacific is anticipated to dominate the maleic anhydride market during the forecast period, driven by rapid industrialization, urbanization, and economic growth in countries like China, India, and Japan. Additionally, North America and Europe are expected to show significant market growth due to the presence of well-established automotive and construction industries and ongoing advancements in agricultural technologies. Latin America and the Middle East & Africa regions are also likely to experience substantial growth, although they currently hold a smaller market share compared to other regions.

Product Type Analysis

The maleic anhydride market is segmented into two primary product types: solid maleic anhydride and liquid maleic anhydride. Solid maleic anhydride is generally favored for its ease of handling and transportation. It is widely used in applications requiring high purity and stability. Industries such as pharmaceuticals and food & beverage prefer solid maleic anhydride for its quality consistency and safety in handling. Additionally, the solid form is often used in smaller-scale applications or in settings where precise dosing is critical.

On the other hand, liquid maleic anhydride is preferred for large-scale industrial applications due to its ease of incorporation into continuous production processes. The liquid form is often used in the manufacture of unsaturated polyester resins and other large-volume industrial chemicals. Its ability to be pumped and metered accurately makes it ideal for automated production lines, contributing to its widespread use in industrial settings. The increasing automation in chemical manufacturing is expected to further drive the demand for liquid maleic anhydride.

The choice between solid and liquid maleic anhydride often depends on the specific requirements of the application and the operational efficiencies sought by manufacturers. For example, in the automotive and construction industries, where large volumes of unsaturated polyester resins are needed, liquid maleic anhydride is more practical. In contrast, in specialized applications like pharmaceuticals, solid maleic anhydride is often preferred for its purity and stability.

Market trends indicate a growing preference for liquid maleic anhydride, particularly in emerging economies, where industrialization is accelerating. The ability to integrate liquid maleic anhydride into advanced manu

.Table NameGeography Area Series: County Business Patterns: 2012 .Release ScheduleThe data in this file were released on June 26, 2014..Key Table InformationBeginning with reference year 2007, CBP data are released using the Noise Infusion method of disclosure avoidance to protect confidentiality. See Survey Methodology for complete information on the coverage and methodology of the County Business Patterns data series. .UniverseThe universe of this file is all operating establishments with one or more paid employees. This universe includes most establishments classified in the North American Industry Classification System (NAICS) Codes 11 through 813990. For specific exclusions and inclusions, see Industry Classification of Establishments. .Geography CoverageThe data are shown at the U.S. level and by State, County, and Metropolitan/Micropolitan Statistical Area (MSA). Also available are data for the District of Columbia, Puerto Rico, and the Island Areas (American Samoa, Guam, the Commonwealth of the Northern Mariana Islands, and the U.S. Virgin Islands) at the state and county equivalent levels. .Industry CoverageThe data are shown at the 2- through 6-digit NAICS code levels for all sectors with published data. .Data Items and Other Identifying RecordsThis file contains data on the number of establishments, paid employees (for the pay period including March 12), first quarter payroll and annual payroll. .Sort OrderData are presented in ascending geography by NAICS code sequence. .FTP DownloadDownload the entire table at http://www2.census.gov/econ2012/CB/sector00/CB1200CBP.zip. .Contact InformationU.S. Census Bureau Economy-Wide Statistics Division Business Statistics Branch Tel: (301)763-2580 Email: ewd.county.business.patterns@census.gov ..Data User Notice posted on February 9, 2016: Census Bureau staff identified a processing error that affects selected data from the 2012 and 2013 County Business Patterns (CBP). As a result, we revised 2012 and 2013 employment and payroll totals in the Educational Services sector (Sector 61) for the following geographies: Massachusetts; New Mexico; Boston-Cambridge-Newton, MA-NH metro area; Albuquerque, NM metro area; Middlesex County, MA; and Bernalillo County, NM. This processing error did not affect other sectors or states. This processing error was not corrected on data.census.gov or API until November 5, 2020..NOTE: Data based on the 2012 County Business Patterns. CBP html tables and download files can be found at the County Business Patterns Website..For information on confidentiality protection, sampling error, nonsampling error, and definitions, see Survey Methodology..Data in this table represent those available when this report was created; data may not be available for all NAICS industries or geographies. Excludes most government employees, railroad employees, and self-employed persons..Source: U.S. Census Bureau, 2012 County Business Patterns.

Mexico Imports: MA: Non-electric Industrial or Laboratory Furnaces data was reported at 21.265 USD mn in Apr 2019. This records an increase from the previous number of 9.215 USD mn for Mar 2019. Mexico Imports: MA: Non-electric Industrial or Laboratory Furnaces data is updated monthly, averaging 9.968 USD mn from Jan 1993 (Median) to Apr 2019, with 316 observations. The data reached an all-time high of 52.314 USD mn in Feb 2012 and a record low of 1.613 USD mn in Oct 1995. Mexico Imports: MA: Non-electric Industrial or Laboratory Furnaces data remains active status in CEIC and is reported by National Institute of Statistics and Geography. The data is categorized under Global Database’s Mexico – Table MX.JA022: Imports: Top Commodities.

Incoloy Alloy MA 956 Market Outlook

The global Incoloy Alloy MA 956 market size is projected to witness significant growth from its 2023 valuation of approximately USD 500 million to a forecasted value of USD 950 million by 2032, growing at a compound annual growth rate (CAGR) of around 7%. This impressive expansion is attributed to several growth factors, including the rising demand for high-performance materials in critical applications across various industries. The market's growth trajectory is further supported by advancements in manufacturing technologies and the increasing requirement for corrosion-resistant alloys in harsh environments, especially in sectors like aerospace, automotive, and chemical processing.

One of the primary growth factors for the Incoloy Alloy MA 956 market is the increasing demand from the aerospace industry, driven by the need for materials that offer exceptional strength-to-weight ratios and can withstand extreme temperatures. Incoloy Alloy MA 956 is particularly valued for its excellent oxidation resistance and high mechanical strength, making it ideal for use in aircraft components and engines. Additionally, the ongoing growth in air travel and the consequent expansion of the aerospace sector have led to a surge in the demand for materials that enhance fuel efficiency and meet stringent safety standards, thereby driving the market for this alloy.

The automotive industry also contributes significantly to the growth of the Incoloy Alloy MA 956 market. As automotive manufacturers strive to improve vehicle performance and fuel efficiency while reducing emissions, there is a growing need for lightweight and durable materials. Incoloy Alloy MA 956 is increasingly being used in exhaust systems, turbochargers, and other high-temperature applications within the automotive sector. The push towards electric vehicles further amplifies this demand, as manufacturers seek materials that can efficiently manage thermal loads and ensure long-term reliability, further propelling the market growth.

The power generation and chemical processing industries are also key drivers of the Incoloy Alloy MA 956 market. In power generation, particularly in nuclear and gas turbine applications, the alloy's ability to withstand high temperatures and corrosive environments makes it indispensable. Similarly, in chemical processing, the alloy's resistance to chemical corrosion and thermal cycling is highly valued, as it ensures equipment longevity and reduces maintenance costs. The growing emphasis on sustainable and efficient energy solutions, along with robust industrial growth, is expected to boost the demand for Incoloy Alloy MA 956 in these sectors.

From a regional outlook perspective, North America and Europe are anticipated to hold significant market shares due to the strong presence of aerospace and automotive industries in these regions. Asia Pacific, however, is expected to exhibit the fastest growth rate, driven by rapid industrialization, urbanization, and increasing investments in infrastructure development. Emerging economies in this region are focusing on enhancing their manufacturing capabilities, which in turn is fueling the demand for advanced materials like Incoloy Alloy MA 956. The Middle East & Africa, while currently holding a smaller share, might witness growth due to the expansion of the energy and chemical sectors.

Product Form Analysis

In terms of product forms, the Incoloy Alloy MA 956 market is segmented into bars, wires, sheets, plates, and others. Among these, bars are expected to capture a substantial portion of the market owing to their extensive application in various industries. Bars, due to their versatility and ease of use, are particularly popular in the aerospace and automotive sectors. These bars are used in a range of applications such as manufacturing engine components, structural parts, and fasteners, making them indispensable in environments that demand high strength and durability.

Wires represent another critical segment within the product form categorization of Incoloy Alloy MA 956. The wire form of this alloy finds significant applications in the manufacturing of springs, fasteners, and welding electrodes due to its excellent mechanical properties and resistance to oxidation. The expanding scope of applications in electronics and telecommunications, where wires play a crucial role, further accentuates their importance in the market. As industries continue to innovate and develop new products, the demand for high-performance materials like Incoloy Alloy MA 956 wires is set to rise, supporting the over

Humanity’s role in changing the face of the earth is a long-standing concern, as is the human domination of ecosystems. Geologists are debating the introduction of a new geological epoch, the ‘anthropocene’, as humans are ‘overwhelming the great forces of nature’. In this context, the accumulation of artefacts, i.e., human-made physical objects, is a pervasive phenomenon. Variously dubbed ‘manufactured capital’, ‘technomass’, ‘human-made mass’, ‘in-use stocks’ or ‘socioeconomic material stocks’, they have become a major focus of sustainability sciences in the last decade. Globally, the mass of socioeconomic material stocks now exceeds 10e14 kg, which is roughly equal to the dry-matter equivalent of all biomass on earth. It is doubling roughly every 20 years, almost perfectly in line with ‘real’ (i.e. inflation-adjusted) GDP. In terms of mass, buildings and infrastructures (here collectively called ‘built structures’) represent the overwhelming majority of all socioeconomic material stocks. This dataset features a detailed map of material stocks in the CONUS on a 10m grid based on high resolution Earth Observation data (Sentinel-1 + Sentinel-2), crowd-sourced geodata (OSM) and material intensity factors. Spatial extent This subdataset covers the North East CONUS, i.e. CT DC DE MA MD ME NH NJ NY PA RI VA For the remaining CONUS, see the related identifiers. Temporal extent The map is representative for ca. 2018. Data format The data are organized by states. Within each state, data are split into 100km x 100km tiles (EQUI7 grid), and mosaics are provided. Within each tile, images for area, volume, and mass at 10m spatial resolution are provided. Units are m², m³, and t, respectively. Each metric is split into buildings, other, rail and street (note: In the paper, other, rail, and street stocks are subsumed to mobility infrastructure). Each category is further split into subcategories (e.g. building types). Additionally, a grand total of all stocks is provided at multiple spatial resolutions and units, i.e. t at 10m x 10m kt at 100m x 100m Mt at 1km x 1km Gt at 10km x 10km For each state, mosaics of all above-described data are provided in GDAL VRT format, which can readily be opened in most Geographic Information Systems. File paths are relative, i.e. DO NOT change the file structure or file naming. Additionally, the grand total mass per state is tabulated for each county in mass_grand_total_t_10m2.tif.csv. County FIPS code and the ID in this table can be related via FIPS-dictionary_ENLOCALE.csv. Material layers Note that material-specific layers are not included in this repository because of upload limits. Only the totals are provided (i.e. the sum over all materials). However, these can easily be derived by re-applying the material intensity factors from (see related identifiers): A. Baumgart, D. Virág, D. Frantz, F. Schug, D. Wiedenhofer, Material intensity factors for buildings, roads and rail-based infrastructure in the United States. Zenodo (2022), doi:10.5281/zenodo.5045337. Further information For further information, please see the publication. A web-visualization of this dataset is available here. Visit our website to learn more about our project MAT_STOCKS - Understanding the Role of Material Stock Patterns for the Transformation to a Sustainable Society. Publication D. Frantz, F. Schug, D. Wiedenhofer, A. Baumgart, D. Virág, S. Cooper, C. Gomez-Medina, F. Lehmann, T. Udelhoven, S. van der Linden, P. Hostert, H. Haberl. Weighing the US Economy: Map of Built Structures Unveils Patterns in Human-Dominated Landscapes. In prep Funding This research was primarly funded by the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme (MAT_STOCKS, grant agreement No 741950). Workflow development was funded by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation)—Project-ID 414984028-SFB 1404. Acknowledgments We thank the European Space Agency and the European Commission for freely and openly sharing Sentinel imagery; USGS for the National Land Cover Database; Microsoft for Building Footprints; Geofabrik and all contributors for OpenStreetMap.This dataset was partly produced on EODC - we thank Clement Atzberger for supporting the generation of this dataset by sharing disc space on EODC.

Morocco MA: GDP: % of Manufacturing: Chemicals data was reported at 15.853 % in 2013. This records an increase from the previous number of 15.523 % for 2012. Morocco MA: GDP: % of Manufacturing: Chemicals data is updated yearly, averaging 14.735 % from Dec 1976 (Median) to 2013, with 33 observations. The data reached an all-time high of 18.179 % in 2010 and a record low of 8.841 % in 1976. Morocco MA: GDP: % of Manufacturing: Chemicals data remains active status in CEIC and is reported by World Bank. The data is categorized under Global Database’s Morocco – Table MA.World Bank: Gross Domestic Product: Share of GDP. Value added in manufacturing is the sum of gross output less the value of intermediate inputs used in production for industries classified in ISIC major division D. Chemicals correspond to ISIC division 24.; ; United Nations Industrial Development Organization, International Yearbook of Industrial Statistics.; ;

The net loss of Ma’aden was approximately *** million Saudi riyal in 2020, compared to a loss of about *** billion Saudi riyal in the previous year. Ma’aden is a Saudi Arabian mining company that was first established in 1997 with a royal decree aiming to grow the country’s mineral sector and diversify the economy from depending on the oil and petrochemical sector. Ma’aden history and overview Ma’aden was a state-owned company until 2008, when half of its shares became available on the Saudi Stock Exchange, Tadawul. It started as a gold production company and increased its activities to producing phosphate, aluminum, industrial minerals, and copper. Its production and processing plants grew from just three in 2009 to ** in 2018. Ma’aden’s highest revenue earning segment was the phosphate fertilizer, ammonia, and industrial minerals segment in 2019. Today, Ma’aden is the largest mining company in the Middle East. It is ranked within the top 10 global mining companies in the world based on its market capitalization of ** billion Saudi riyal in 2018. Its vision is to have a global presence in the mining industry and use sustainable methods. In 2019, Ma’aden acquired its first international company that operates in the fertilizer industry; Meridian Group. Saudi mining industry Saudi Arabia has a mission to transform its mining industry into its economy’s third pillar by 2030. The country’s metal ore mining revenue exceeded *** billion U.S. dollars in 2017. Investments in the sector have been encouraged by providing tax incentives, adequate labor force, and facilitated mining licenses. The value added per capita from the mining and quarrying sector in Saudi Arabia was significantly above the average of the Arab world. Saudi Arabia’s mining facilities also generate power that provides electricity to more than half a million homes, and it aims to become the second largest phosphate fertilizer producer and exporter by 2030. Its annual phosphate fertilizer production increased from *** million metric tons in 2012 to more than *** million metric tons in 2016.

Morocco MA: GDP: % of Manufacturing: Machinery and Transport Equipment data was reported at 5.903 % in 2013. This records a decrease from the previous number of 5.961 % for 2012. Morocco MA: GDP: % of Manufacturing: Machinery and Transport Equipment data is updated yearly, averaging 4.694 % from Dec 1976 (Median) to 2013, with 33 observations. The data reached an all-time high of 8.627 % in 1977 and a record low of 3.053 % in 1988. Morocco MA: GDP: % of Manufacturing: Machinery and Transport Equipment data remains active status in CEIC and is reported by World Bank. The data is categorized under Global Database’s Morocco – Table MA.World Bank: Gross Domestic Product: Share of GDP. Value added in manufacturing is the sum of gross output less the value of intermediate inputs used in production for industries classified in ISIC major division D. Machinery and transport equipment correspond to ISIC divisions 29, 30, 32, 34, and 35.; ; United Nations Industrial Development Organization, International Yearbook of Industrial Statistics.; ;

This statistic shows the research and development spending of the U.S. biotech industry - represented by public biotech companies only in 2021, sorted by major region. In Massachusetts, R&D spending by such companies came to **** billion U.S. dollars.

Morocco MA: Level of Water Stress: Freshwater Withdrawal As Proportion of Available Freshwater Resources data was reported at 49.036 Ratio in 2014. Morocco MA: Level of Water Stress: Freshwater Withdrawal As Proportion of Available Freshwater Resources data is updated yearly, averaging 49.036 Ratio from Dec 2014 (Median) to 2014, with 1 observations. Morocco MA: Level of Water Stress: Freshwater Withdrawal As Proportion of Available Freshwater Resources data remains active status in CEIC and is reported by World Bank. The data is categorized under Global Database’s Morocco – Table MA.World Bank: Energy Production and Consumption. The level of water stress: freshwater withdrawal as a proportion of available freshwater resources is the ratio between total freshwater withdrawn by all major sectors and total renewable freshwater resources, after taking into account environmental water requirements. Main sectors, as defined by ISIC standards, include agriculture; forestry and fishing; manufacturing; electricity industry; and services. This indicator is also known as water withdrawal intensity.; ; Food and Agriculture Organization, AQUASTAT data.; ;

In 2020, ** of the leading landscaping companies were based in California, making it the state with the highest number of companies. Texas came second with ** leading companies in the same industry during that period. Colorado, Massachusetts and New Jersey, had each **** leading landscaping companies representing that industry.