We deployed a recoverable biologging package combining a VEMCO Mobile Transceiver (VMT), accelerometer and a Temperature‐Depth (TD) tag to quantitatively assess fine‐scale behaviour during detection events, i.e. Here, we present a framework to estimate when there is a high likelihood that aquatic animal sub‐surface interactions occur and test for a movement‐related behavioral response to those interactions over short temporal scales (days) using a novel multi‐sensor biologging package on a large marine predator, the Greenland shark (Somniosus microcephalus).
Quantifying sub‐surface behavioural interactions among marine organisms is challenging, but technological advances are promoting novel opportunities. Interactions between animals structure food webs and regulate ecosystem function and productivity. Access to the raw VMT data allowed us to focus on the physical and environmental factors that limit a transceiver's ability to resolve a transmitter's identity. Distance between seals, wind stress, and depth were the most important predictors of detection efficiency. In contrast, when incomplete transmissions from the summarized raw data were also considered, the ratio of complete transmission to complete and incomplete transmissions was about 70% for distances ranging from 50-1000 m, with a minimum of around 40% at 600 m and a maximum of about 85% at 50 m. At a separation of 400 m, only about 15% of expected detections were recorded. When considering only post-processed detection data, only about half of expected detections were recorded at best even when two VMT-tagged seals were estimated to be within 50-200 m of one another. We evaluated the detection efficiency of VMTs deployed on grey seals, Halichoerus grypus, off Sable Island (NS, Canada) in relation to environmental characteristics and seal behaviour using generalized linear models (GLM) to explore both post-processed detection data and summarized raw VMT data. Quantifying the uncertainty associated with detecting a tagged animal, particularly under varying field conditions, is vital for making accurate biological inferences when using VMTs. GPS) tags provides a unique opportunity to better understand between and within species interactions in space and time. The development of dual transmitter/receivers, Vemco Mobile Transceivers (VMT), and satellite-linked (e.g. We harvest our data from various publically available data sources such as edgar database (SEC), form 5500 dataset (IRS), form 990 datasets (tax-exempt organizations) etc.Understanding the nature of inter-specific and conspecific interactions in the ocean is challenging because direct observation is usually impossible. We have a database of over 7.3M entities which can be searched to find the ein number of business entities.
What is ?: Our website is a free resource to find the ein number for various business entities. Since all corporations - including ones with no income - must file at least a federal income tax return, a corporation operating or incorporated in the United States generally must obtain an EIN anyway either before or after being issued its charter. Also, financial institutions such as banks, credit unions, and brokerage houses will not open an account for a corporation without an EIN. To be considered a Partnership, LLC, Corporation, S Corporation, Non-profit, etc. Other commonly used terms for EIN are Taxpayer Id, IRS Number, Tax Id, Taxpayer Identification Number (TIN) etc.Ī business needs an EIN in order to pay employees and to file business tax returns. Employer Identification Number (EIN): The Employer Identification Number (EIN), also known as the Federal Employer Identification Number (FEIN) or the Federal Tax Identification Number (FTIN), is a unique nine-digit number assigned by the Internal Revenue Service (IRS) (format: XX-XXXXXXXXX) to business entities operating in the United States for the purposes of identification and employment tax reporting.