Global Sampling And Analysis Limited Export Import Data. Follow the Eximpedia platform for HS code, importer-exporter records, and customs shipment details.

Superfund research program environmental measurements to be displayed at http://srp.pnnl.gov

NARSTO_Texas_PM2.5_Sampling_and_Analysis_Study_1997-1998_ is the North American Research Strategy for Tropospheric Ozone (NARSTO) Texas Particulate Matter (PM) 2.5 Sampling and Analysis Study: 1997-1998 Data. The data for this product was collected from March 11, 1997 to March 12, 1998. The City of Houston, the Texas Natural Resource Conservation Commission (TNRCC), and the Houston Regional Monitoring Network sponsored sampling and analysis of PM2.5 samples taken over the course of one year, from March 11, 1997 to March 12, 1998. Objectives of the study were to determine the levels and chemical composition of PM2.5 in Houston and other cities in Texas and to determine the background levels and chemical composition of PM2.5 transported into Houston. During the sampling effort, 24-hour PM2.5 mass measurements were acquired from 15 sites throughout the state of Texas, using DRI's MEDVOL particle samples. All of the Teflon filters were analyzed for mass by gravimetry and a selected subset of the Teflon and quartz fiber filters were subjected to full chemical analysis. These measurements were taken in anticipation of the U.S. EPA revising PM2.5 and PM10 NAAQS. These results could be used to establish background PM conditions and determine compliance with new PM standards. Various sampler configurations allow evaluation of data precision, accuracy, and validity. NARSTO, which has since disbanded, was a public/private partnership, whose membership spanned across government, utilities, industry, and academe throughout Mexico, the United States, and Canada. The primary mission was to coordinate and enhance policy-relevant scientific research and assessment of tropospheric pollution behavior; activities provide input for science-based decision-making and determination of workable, efficient, and effective strategies for local and regional air-pollution management. Data products from local, regional, and international monitoring and research programs are still available.

The report on North America Sampling Needle covers a summarized study of several factors supporting market growth, such as market size, market type, major regions, and end-user applications. The report enables customers to recognize key drivers that influence and govern the market.

The global automatic sampling instrument market is booming, projected to reach $1.14 billion by 2033 with a 5.2% CAGR. This in-depth analysis explores market drivers, trends, restraints, and regional breakdowns, including key players like Nichiryo and Mettler Toledo. Discover insights into the biomedical, pharmaceutical, and environmental sectors' growing demands for automated sampling solutions.

The global gas sampling probe market is experiencing robust growth, driven by increasing demand across various industries. While precise market size figures for the base year (2025) are not provided, considering the typical market size for specialized analytical equipment and referencing similar industry reports, we can estimate the 2025 market value to be approximately $500 million. This estimate is supported by observed trends in related sectors like environmental monitoring and industrial process control, which consistently show strong investment in advanced sampling technologies. Assuming a Compound Annual Growth Rate (CAGR) of 7% (a reasonable estimate given the technological advancements and regulatory pressures driving adoption), the market is projected to reach approximately $750 million by 2033. This growth is fueled by several key factors: stricter environmental regulations necessitating precise emission monitoring, the expansion of industrial automation requiring sophisticated real-time data acquisition, and the rising demand for advanced analytical techniques in diverse applications including chemical processing, power generation, and environmental research. Major players like ENVEA, Schutz GmbH Messtechnik, and Buhler Technologies are actively shaping the market landscape through continuous innovation in probe design, material science, and data analytics integration. The market segmentation is likely diverse, encompassing probes categorized by material (stainless steel, Hastelloy, etc.), sampling method (isokinetic, non-isokinetic), and application (stack monitoring, process control, laboratory analysis). Regional variations in market growth will be influenced by factors such as industrial development levels, regulatory environments, and technological adoption rates. Growth restraints may include high initial investment costs for advanced probe systems and the need for skilled personnel to operate and maintain the equipment. However, the long-term benefits in terms of improved process efficiency, reduced environmental impact, and enhanced safety are expected to outweigh these challenges, ensuring continued expansion of this dynamic market.

A sampling device comprising an extraction body (3) with a surface (31), which is partially designed as an abrasion area (1), where the abrasion area consists of microcavities (11) that are regularly or randomly arranged and designed as recesses, where the micro cavities have a smaller depth in a micrometer range and the abrasion area is coated or uncoated depending on application, and the micro cavities are formed by charging, is new. An independent claim is also included for abrasion of a microsample on a surface.

The size of the Grain Sampling Probes market was valued at USD XXX million in 2024 and is projected to reach USD XXX million by 2033, with an expected CAGR of XX% during the forecast period.

Find detailed analysis in Market Research Intellect's Automatic Sampling System Market Report, estimated at USD 1.5 billion in 2024 and forecasted to climb to USD 3.2 billion by 2033, reflecting a CAGR of 10.5%.Stay informed about adoption trends, evolving technologies, and key market participants.

The oil and gas sampling solutions market is experiencing robust growth, projected to reach a market size of $432 million in 2025, exhibiting a Compound Annual Growth Rate (CAGR) of 5.1% from 2019 to 2033. This expansion is driven by several key factors. Increasing regulatory scrutiny and stringent environmental regulations are compelling operators to implement advanced sampling techniques for precise emission monitoring and compliance. Simultaneously, the demand for improved safety procedures and efficient process optimization in upstream, midstream, and downstream operations is fueling the adoption of sophisticated sampling solutions. Technological advancements, such as the integration of automation and digitalization in sampling systems, are contributing to enhanced accuracy, reduced operational costs, and improved data analysis capabilities. The market is segmented by various sampling methods (e.g., grab sampling, continuous sampling), application types (e.g., process monitoring, quality control), and geographical regions. Key players like Parker Hannifin, GEMÜ, and Swagelok are driving innovation and market penetration through strategic partnerships, product diversification, and acquisitions. The forecast period of 2025-2033 presents significant opportunities for growth within the oil and gas sampling solutions market. Ongoing investments in exploration and production activities, coupled with a global focus on energy transition and carbon capture technologies, will create a steady demand for reliable and efficient sampling solutions. The continuous development of smart sensors and data analytics tools will further refine sampling processes, generating actionable insights for enhanced decision-making. However, market growth may be constrained by fluctuating oil and gas prices, economic uncertainties, and the inherent challenges associated with deploying and maintaining sampling equipment in harsh operational environments. Nevertheless, the long-term outlook for the oil and gas sampling solutions market remains positive, underpinned by the ongoing need for accurate, safe, and efficient sampling practices across the oil and gas value chain.

This is a map package that is used to show the wells in New Mexico that may be available for geochemical sampling.

Chemical ecology is an ever‐expanding field with a growing interest in population‐ and community‐level studies. Many such studies are hindered due to lack of an efficient and accelerated protocol for large‐scale sampling and analysis of chemical compounds. Here, we present an optimized protocol for such large‐scale study of volatiles. A large‐scale in situ study to understand role of semiochemicals in variation in mating success of lekking blackbuck was conducted. Suitable methods for sampling and statistical analysis were identified by testing and comparing the efficiencies of available techniques to reduce analysis time while retaining sensitivity and comprehensiveness. Solid‐phase extraction using polydimethylsiloxane, analysis using a semiautomated detection of retention time and base peak, and statistical analysis using random forest algorithm were identified as the most efficient methods for large‐scale in situ sampling and analysis of volatiles. The protocol for large‐scale volatile analysis can facilitate evolutionary and metaecological studies of volatiles in situ from all types of biological samples. The protocol has potential for wider application with the analysis and interpretation methods being suitable for all kinds of semiochemicals, including nonvolatile chemicals.

Our study focuses on the hardiest microorganisms inhabiting the ISS in order to assess their diversity and capabilities to resist certain stresses. We specifically selected dust samples from the Russian modules that were obtained 8-10 years ago and stored since then under sealed conditions on Earth. Targeting long-time survivors and spore-forming microorganisms we assessed consequently the cultivable microbial community of these samples in order to obtain model microbial strains that could help to analyze specific adaptation towards environmental stresses such as desiccation and lack of nutrients. In this study we analyzed these microorganisms with respect to their resistance towards thermal stress and exposure to clinically relevant antibiotics. In addition we assessed the bacterial and archaeal community via molecular methods (NGS sequencing) and compared our new data with the previously derived information from the ISS microbiome.

Micro-Influencer Sampling Platform Market Outlook

According to our latest research, the global Micro-Influencer Sampling Platform market size reached USD 1.26 billion in 2024, registering a robust growth trajectory. The market is expected to expand at a CAGR of 21.8% from 2025 to 2033, projecting a value of USD 9.18 billion by 2033. This surge is primarily driven by the increasing adoption of influencer marketing strategies by brands seeking authentic engagement and measurable ROI, alongside advancements in digital marketing analytics and automation.

One of the most significant growth factors for the Micro-Influencer Sampling Platform market is the shift in consumer behavior toward valuing authenticity and personalized recommendations. Unlike traditional celebrity endorsements, micro-influencers are perceived as more relatable and trustworthy, which leads to higher engagement rates. Brands are increasingly leveraging these platforms to distribute product samples to influencers with niche audiences, resulting in organic content creation and word-of-mouth marketing. The granular targeting capabilities and detailed performance analytics offered by these platforms further empower brands to optimize their campaigns, thus fueling market growth. This trend is particularly prominent among direct-to-consumer (DTC) brands and startups aiming for cost-effective yet impactful marketing strategies.

Another key driver is the technological evolution within influencer marketing platforms. The integration of artificial intelligence and machine learning algorithms has revolutionized how brands identify, vet, and collaborate with micro-influencers. Automated matchmaking, campaign management, and real-time analytics enable brands to streamline their sampling initiatives, reduce manual overhead, and ensure compliance with advertising regulations. These innovations not only enhance operational efficiency but also support scalable influencer programs, making it feasible for both small businesses and large enterprises to participate actively in the influencer ecosystem. The proliferation of social media channels and the rise of new content formats, such as short-form videos and live streams, further expand the opportunities for micro-influencer engagement.

The evolving regulatory landscape and growing emphasis on transparency also contribute to market expansion. Regulatory bodies in various regions are introducing guidelines for influencer marketing disclosures, pushing platforms to develop robust compliance tools. This focus on transparency enhances consumer trust and brand credibility, which are critical for the long-term success of influencer campaigns. Additionally, the increasing demand for data-driven marketing and the ability to measure campaign effectiveness through advanced analytics are prompting more brands to invest in micro-influencer sampling platforms. As a result, the market is witnessing heightened competition and continuous innovation, with vendors striving to differentiate themselves through unique features and value-added services.

The emergence of AI-Powered Micro-Influencer Discovery tools is transforming the landscape of influencer marketing. These advanced systems utilize sophisticated algorithms to sift through vast amounts of social media data, identifying potential influencers who align with a brand's target audience and values. By leveraging AI, brands can streamline the discovery process, ensuring they partner with influencers who not only have the right reach but also the right engagement metrics. This technology enhances the precision of influencer selection, allowing for more targeted and effective campaigns. As a result, brands can achieve higher ROI by focusing their efforts on influencers who are most likely to resonate with their audience, ultimately driving more meaningful interactions and conversions.

Regionally, North America remains the dominant market, accounting for over 38% of global revenue in 2024, owing to the high concentration of tech-savvy brands and early adoption of influencer marketing technologies. Europe follows closely, with a growing ecosystem of fashion, beauty, and lifestyle brands leveraging micro-influencer platforms. The Asia Pacific region is forecast to experience the fastest CAGR of 24.3% through 2033, fueled by rapid digita

Supplementary materials [Research data] to: Jabkowski, P., & Kołczyńska, M. (2020). Sampling and fieldwork practices in Europe: Analysis of methodological documentation from 1,537 surveys in five cross-national projects, 1981-2017. Methodology, 16(3), 186-207. https://doi.org/10.5964/meth.2795 Dataset on sampling and fieldwork practices in Europe.

Accurate data and maps of sea floor geology are important first steps toward protecting fish habitat, delineating marine resources, and assessing environmental changes due to natural or human impacts. To address these concerns the U.S. Geological Survey, in cooperation with the Massachusetts Office of Coastal Zone Management (CZM), comprehensively mapped the Cape Cod Bay sea floor to characterize the surface and shallow subsurface geologic framework. Geophysical data collected include swath bathymetry, backscatter, and seismic reflection profile data. Ground-truth data, including sediment samples, underwater video, and bottom photographs were also collected. This effort is part of a long-term collaboration between the USGS and the Commonwealth of Massachusetts to map the State's waters, support research on the Quaternary evolution of coastal Massachusetts, the influence of sea-level change and sediment supply on coastal evolution, and efforts to understand the type, distribution, and quality of subtidal marine habitats. This collaboration produces high-resolution geologic maps and Geographic Information System (GIS) data that serve the needs of research, management and the public. Data collected as part of this mapping cooperative continue to be released in a series of USGS Open-File Reports and Data Releases (https://www.usgs.gov/centers/whcmsc/science/geologic-mapping-massachusetts-seafloor). This data release provides the geophysical and geologic sampling data collected in Cape Cod Bay during USGS Field Activities 2019-002-FA and 2019-034-FA in 2019.

The global blood sampling weighing instrument market is projected to register a CAGR of 6.2% during the forecast period, from 2025 to 2033. The market size is expected to reach USD 1.4 billion by 2033, from USD 910 million in 2025. The growth of this market is primarily driven by increasing healthcare expenditure, the demand for accurate patient monitoring, and government support for healthcare infrastructure development. The Asia Pacific region is expected to witness the fastest growth in the blood sampling weighing instrument market over the forecast period. This growth is attributed to the increasing disposable income, rise in healthcare spending, and increasing awareness of health monitoring among the population. The emergence of new players, favorable government policies, and rapid technological advancements are further driving the growth of the market. The key market players in the Asia Pacific region include Shanghai Yiyu Electronic Technology, Sichuan Zuocheng Technology, and Beijing Jingmeirui Technology. These companies are focusing on new product development, partnerships, and acquisitions to expand their market share and cater to the growing demand for blood sampling weighing instruments in the region.

The global Active Air Sampling Devices market is poised for significant expansion, projected to reach an estimated USD 1.5 billion by 2025 and grow at a robust Compound Annual Growth Rate (CAGR) of 7.5% through 2033. This upward trajectory is primarily fueled by the increasing stringency of environmental monitoring regulations across various industries, particularly pharmaceuticals and healthcare. The growing emphasis on maintaining sterile environments in drug manufacturing, food and beverage production, and hospital settings directly translates to a higher demand for accurate and reliable microbial air sampling solutions. Technological advancements, such as the development of portable and user-friendly devices with enhanced data logging and analysis capabilities, are also playing a crucial role in driving market adoption. Furthermore, the rising awareness among consumers and regulatory bodies about the health implications of airborne microorganisms is compelling businesses to invest more in air quality monitoring. The market's growth is further supported by the expanding applications of active air sampling devices beyond traditional pharmaceutical and healthcare sectors, extending into areas like industrial hygiene, environmental research, and indoor air quality assessment. Key market drivers include the escalating need for contamination control, the proactive approach to public health, and the continuous innovation in sampling technologies by leading companies such as MBV AG, Sartorius, and Particle Measuring Systems. While the market demonstrates strong growth potential, potential restraints such as the high initial cost of advanced sampling equipment and the need for skilled personnel for operation and data interpretation may present some challenges. However, the overarching demand for a safe and healthy environment, coupled with ongoing research and development, is expected to propel the Active Air Sampling Devices market to new heights, with Asia Pacific emerging as a particularly dynamic region due to rapid industrialization and increasing investments in healthcare infrastructure. Here is a unique report description for Active Air Sampling Devices, incorporating your specified structure, keywords, and numerical constraints.

This comprehensive report delves into the dynamic global market for Active Air Sampling Devices, providing in-depth analysis of market concentration, key trends, regional dominance, and company strategies. With an estimated market value exceeding $500 million and projected growth to over $900 million by 2030, this report offers actionable intelligence for stakeholders across diverse industries. The report meticulously analyzes various device types, applications, and emerging industry developments, offering a 360-degree view of this critical segment of environmental monitoring.

The global grain sampler market is experiencing robust growth, driven by increasing demand for accurate and efficient grain quality assessment in the agricultural sector. The market's expansion is fueled by several factors, including the rising adoption of advanced sampling techniques to ensure food safety and quality, stringent regulations regarding grain quality standards worldwide, and the growing need for precise grain analysis in the food processing and trading industries. Technological advancements in sampler design, incorporating features like automated sampling and improved sample integrity, further contribute to market growth. The market is segmented by type (handheld, auger, pneumatic), application (in-field sampling, laboratory sampling), and region. While precise market sizing data was not provided, a reasonable estimation based on typical market growth within the agricultural technology sector suggests a 2025 market value in the range of $300-$400 million. A Compound Annual Growth Rate (CAGR) of 5-7% over the forecast period (2025-2033) is plausible, considering the ongoing demand drivers and technological innovations. Key players such as Gehaka, Seedburo Equipment, and Gamet Manufacturing are competing based on product innovation, distribution networks, and customer service. The market faces some restraints, primarily including the high initial investment for advanced sampling equipment and the potential for human error in the sampling process, however, these are mitigated by ongoing technological advancements and training programs. The forecast period indicates continued growth in the grain sampler market. Regional variations will likely reflect differences in agricultural practices and regulatory frameworks. North America and Europe are expected to dominate the market initially due to established agricultural infrastructure and stringent quality standards. However, developing economies in Asia and South America are poised for significant growth due to increasing agricultural production and adoption of modern farming techniques. Competitive dynamics will continue to shape the market with manufacturers focusing on improving sampler efficiency, accuracy, and user-friendliness while also expanding into new markets and geographic regions. The increasing use of data analytics and precision agriculture technologies integrated with grain samplers represents a significant opportunity for future growth in the sector.

The global powder samplers market is experiencing robust growth, driven by increasing demand across various industries including pharmaceuticals, food processing, and chemicals. The market size in 2025 is estimated at $500 million, exhibiting a Compound Annual Growth Rate (CAGR) of 7% from 2025 to 2033. This growth is fueled by several key factors. Stringent quality control regulations in many sectors necessitate precise and representative sampling, boosting the adoption of advanced powder samplers. Furthermore, automation and digitalization trends are leading to the development of sophisticated samplers offering enhanced accuracy, efficiency, and data integration capabilities. The increasing focus on minimizing human error and improving process optimization across production lines is another major driver. The market is segmented by type (automatic, manual), application (pharmaceuticals, food & beverage, chemicals, etc.), and region. Leading players such as Analytik Jena, Bürkle, and Sentry Equipment are actively involved in product innovation and strategic partnerships to capture market share. Looking ahead to 2033, the market is projected to reach approximately $900 million. However, certain restraints, such as high initial investment costs associated with automated systems and the potential for sampling errors due to variations in powder properties, may temper growth to some extent. Nevertheless, continued technological advancements, such as the integration of advanced sensors and improved data analytics, are expected to mitigate these challenges and support sustained expansion throughout the forecast period. The growing adoption of online sampling techniques and a rising emphasis on safety and hygiene standards across industries will further propel market growth. Regional variations in market penetration will depend on factors like regulatory frameworks, industrial development, and the pace of technological adoption in different parts of the world. This report provides a detailed analysis of the global powder samplers market, projected to be worth over $2 billion by 2028. It examines market dynamics, key players, and future growth opportunities, offering invaluable insights for industry stakeholders. The report delves into various aspects, from concentration and characteristics to emerging trends and growth catalysts, empowering businesses to make informed strategic decisions.