| Contributors | Affiliation | Role |
|---|---|---|
| Kranz, Sven A. | Florida State University (FSU) | Principal Investigator |
| Landry, Michael R. | University of California-San Diego Scripps (UCSD-SIO) | Principal Investigator |
| Rauch, Shannon | Woods Hole Oceanographic Institution (WHOI BCO-DMO) | BCO-DMO Data Manager |
This dataset contains water surface meteorology data from flow through instrumentation and atmospheric data from ship-board instrumentation on the R/V Roger Revelle. The RR2201 cruise report can be found at http://hdl.handle.net/1834/43464.
The package of instruments included:
GT: GPS time (UTS); Model: Seapath 330+; Serial: 24052 EC04NS2012; MFG Kongsberg –; Units (seconds)
LA: Latitude; Model: Seapath 330+; Serial: 24052 EC04NS2012; MFG Kongsberg; Units: Deg Decimal
LO: Longitude; Model: Seapath 330+; Serial: 24052 EC04NS2012; MFG Kongsberg; Units: Deg Decimal
GY: ship heading Gyro; Model: Seapath 330+; Serial: 24052 EC04NS2012; MFG Kongsberg; Units: degree
CR: Compass ships heading; Model: Seapath 330+; Serial: 24052 EC04NS2012; MFG Kongsberg; Units: DEG
SP: Ships Speed; Model: Seapath 330+; Serial: 24052 EC04NS2012; MFG Kongsberg; Units: Knots
AT: Air Temperature; Model: 41342VC; Serial: 27209; MFG RM Young; Units: Deg C
BP: Barometric Pressure; Model: 61302V; Serial: BPA9784; MFG RM Young; Units:; Units: PSI?
RH: Relative Humidity; EE08; Serial: 17150500023924; MFG E+E Elektronik; Units: PerCent
RT: Relative Temperature; Model: EE08; Serial: 17150500023924; MFG E+E Elektronik; Units: Deg C
DP: Dew Point; Model: EE08; Serial: 17150500023924; MFG E+E Elektronik; Units: Deg C
LW: Long Wave Radiation; Model: PIR; Serial: 38301F3; MFG Eppley Labs; Units: W/M2
SW: Short Wave Radiation; Model: PIR; Serial: 38301F3; MFG Eppley Labs; Units: W/M2
PA: Surface PAR QSR-240P; Serial: 6367; MFG Biospherical Instruments; Units: uE/Sec/Meter^2
WS: Wind Speed; Model: 86106; Serial: 1297; MFG RM Young; Units: M/S
WD: Wind Direction; Model: 86106; Serial: 1297; MFG RM Young; Units: DEG
TW: True Wind Speed; Model: 5300; Units: M/S
ST: Sea Surface Temperature; SBE38; Serial: 1188; MFG Seabird; Units: Deg C
SA: Salinity; Model: SBE45; Serial: 0083; MFG Seabird; Units: PSU
SD: Salinity Density ; Model: SBE45; Serial: 0083; MFG Seabird; Units: Kg/m^3
SV: Sound Velocity; Model: SBE45; Serial: 0083; MFG Seabird; Units: M/S
OX: Oxygen; Model: SBE-43; Serial: 0275; MFG Seabird; Units: ml/l
OS: Oxygen Saturation; Model: SBE-43; Serial: 0275; MFG Seabird; Units: ml/l
FL: Chlorophyll fluorescence; Fluorometer Wetstar; Serial: WS3S-278P; MFG Wetlabs; Units : ug/l
Data were taken directly from the MET dataset and averaged over 1 minute (from 15-second intervals). No other data processing was performed.
- Imported original file "RR2201_MET_Composite_Averaged040225.csv" into the BCO-DMO system.
- Rounded values with long repeating decimals: LO rounded to 6 decimal places; GT rounded to 2 decimal places; all others rounded to 4 decimal places.
- Saved the final file as "964246_v1_rr2201_met_data.csv".
| File |
|---|
964246_v1_rr2201_met.csv (Comma Separated Values (.csv), 10.80 MB) MD5:988095d0a3f13765257641d97d8b512e Primary data file for dataset ID 964246, version 1 |
| Parameter | Description | Units |
| DateTime | Date and time (UTC) | unitless |
| GT | GPS time (UTC); Model: Seapath 330+; Serial: 24052 EC04NS2012; MFG Kongsberg –; Units (seconds) | seconds |
| LA | Latitude; Model: Seapath 330+; Serial: 24052 EC04NS2012; MFG Kongsberg; Units: Deg Decimal | decimal degrees |
| LO | Longitude; Model: Seapath 330+; Serial: 24052 EC04NS2012; MFG Kongsberg; Units: Deg Decimal | decimal degrees |
| GY | ship heading Gyro; Model: Seapath 330+; Serial: 24052 EC04NS2012; MFG Kongsberg; Units: degree | degrees |
| CR | Compass ships heading; Model: Seapath 330+; Serial: 24052 EC04NS2012; MFG Kongsberg; Units: DEG | degrees |
| SP | Ships Speed; Model: Seapath 330+; Serial: 24052 EC04NS2012; MFG Kongsberg; Units: Knots | knots |
| AT | Air Temperature; Model: 41342VC; Serial: 27209; MFG RM Young; Units: Deg C | degrees Celsius |
| BP | Barometric Pressure; Model: 61302V; Serial: BPA9784; MFG RM Young; Units:; Units: millibars | millibars |
| RH | Relative Humidity; EE08; Serial: 17150500023924; MFG E+E Elektronik; Units: PerCent | percent |
| RT | Relative Temperature; Model: EE08; Serial: 17150500023924; MFG E+E Elektronik; Units: Deg C | degrees Celsius |
| DP | Dew Point; Model: EE08; Serial: 17150500023924; MFG E+E Elektronik; Units: Deg C | degrees Celsius |
| LW | Long Wave Radiation; Model: PIR; Serial: 38301F3; MFG Eppley Labs; Units: W/M2 | watts per square meter |
| SW | Short Wave Radiation; Model: PIR; Serial: 38301F3; MFG Eppley Labs; Units: W/M2 | watts per square meter |
| PA | Surface PAR QSR-240P; Serial: 6367; MFG Biospherical Instruments; Units: uE/Sec/Meter^2 | microEinsteins per second per square meter |
| WS | Wind Speed; Model: 86106; Serial: 1297; MFG RM Young; Units: M/S | meters per second |
| WD | Wind Direction; Model: 86106; Serial: 1297; MFG RM Young; Units: DEG | degrees |
| TW | True Wind Speed; Model: 5300; Units: M/S | meters per second |
| ST | Sea Surface Temperature; SBE38; Serial: 1188; MFG Seabird; Units: Deg C | degrees Celsius |
| SA | Salinity; Model: SBE45; Serial: 0083; MFG Seabird; Units: PSU | PSU |
| SD | Salinity Density ; Model: SBE45; Serial: 0083; MFG Seabird; Units: Kg/m^3 | kilogram per cubic meter |
| SV | Sound Velocity; Model: SBE45; Serial: 0083; MFG Seabird; Units: M/S | meters per second |
| OX | Oxygen; Model: SBE-43; Serial: 0275; MFG Seabird; Units: ml/l | milliliters per liter |
| OS | Oxygen Saturation; Model: SBE-43; Serial: 0275; MFG Seabird; Units: ml/l | milliliters per liter |
| FL | Chlorophyll fluorescence; Fluorometer Wetstar; Serial: WS3S-278P; MFG Wetlabs; Units : ug/l | micrograms per liter |
| Dataset-specific Instrument Name | ship-board instrumentation. |
| Generic Instrument Name | Meteorological Station |
| Dataset-specific Description | Surface meteorology data from flow through instrumentation and atmospheric data from ship-board instrumentation. See "Methods & Sampling" section of metadata for complete list of instruments. |
| Generic Instrument Description | MET station systems are designed to record meteorological information on board ships or mounted on moorings. These are commonly referred to as EMET (Electronic Meteorological Packages) or IMET (Improved Meteorological Packages) systems. These sensor packages record measurements of sea surface temperature and salinity, air temperature, wind speed and direction, barometric pressure, solar and long-wave radiation, humidity and precipitation. |
| Website | |
| Platform | R/V Roger Revelle |
| Report | |
| Start Date | 2022-01-20 |
| End Date | 2022-03-14 |
| Description | See more information at R2R: https://www.rvdata.us/search/cruise/RR2201 |
NSF Award Abstract:
The small area between NW Australia and Indonesia in the eastern Indian Ocean (IO) is the only known spawning ground of Southern Bluefin Tuna (SBT), a critically endangered top marine predator. Adult SBT migrate thousands of miles each year from high latitude feeding areas to lay their eggs in these tropical waters, where food concentrations on average are below levels that can support optimal feeding and growth of their larvae. Many critical aspects of this habitat are poorly known, such as the main source of nitrogen nutrient that sustains system productivity, how the planktonic food web operates to produce the unusual types of zooplankton prey that tuna larvae prefer, and how environmental differences in habitat quality associated with ocean fronts and eddies might be utilized by adult spawning tuna to give their larvae a greater chance for rapid growth and survival success. This project investigates these questions on a 38-day expedition in early 2021, during the peak time of SBT spawning. This project is a US contribution to the 2nd International Indian Ocean Expedition (IIOE-2) that advances understanding of biogeochemical and ecological dynamics in the poorly studied eastern IO. This is the first detailed study of nitrogen and carbon cycling in the region linking Pacific and IO waters. The shared dietary preferences of SBT larvae with those of other large tuna and billfish species may also make the insights gained broadly applicable to understanding larval recruitment issues for top consumers in other marine ecosystems. New information from the study will enhance international management efforts for SBT. The shared larval dietary preferences of large tuna and billfish species may also extend the insights gained broadly to many other marine top consumers, including Atlantic bluefin tuna that spawn in US waters of the Gulf of Mexico. The end-to-end study approach, highlights connections among physical environmental variability, biogeochemistry, and plankton food webs leading to charismatic and economically valuable fish production, is the theme for developing educational tools and modules through the "scientists-in-the-schools" program of the Center for Ocean-Atmospheric Prediction Studies at Florida State University, through a program for enhancing STEM learning pathways for underrepresented students in Hawaii, and through public outreach products for display at the Birch Aquarium in San Diego. The study also aims to support an immersive field experience to introduce talented high school students to marine research, with the goal of developing a sustainable marine-related educational program for underrepresented students in rural northwestern Florida.
Southern Bluefin Tuna (SBT) migrate long distances from high-latitude feeding grounds to spawn exclusively in a small oligotrophic area of the tropical eastern Indian Ocean (IO) that is rich in mesoscale structures, driven by complex currents and seasonally reversing monsoonal winds. To survive, SBT larvae must feed and grow rapidly under environmental conditions that challenge conventional understanding of food-web structure and functional relationships in poor open-ocean systems. The preferred prey of SBT larvae, cladocerans and Corycaeidae copepods, are poorly studied and have widely different implications for trophic transfer efficiencies to larvae. Differences in nitrogen sources - N fixation vs deep nitrate of Pacific origin - to sustain new production in the region also has implications for conditions that may select for prey types (notably cladocerans) that enhance transfer efficiency and growth rates of SBT larvae. The relative importance of these N sources for the IO ecosystem may affect SBT resiliency to projected increased ocean stratification. This research expedition investigates how mesoscale variability in new production, food-web structure and trophic fluxes affects feeding and growth conditions for SBT larvae. Sampling across mesoscale features tests hypothesized relationships linking variability in SBT larval feeding and prey preferences (gut contents), growth rates (otolith analyses) and trophic positions (TP) to the environmental conditions of waters selected by adult spawners. Trophic Positions of larvae and their prey are determined using Compound-Specific Isotope Analyses of Amino Acids (CSIA-AA). Lagrangian experiments investigate underlying process rates and relationships through measurements of water-column 14C productivity, N2 fixation, 15NO3- uptake and nitrification; community biomass and composition (flow cytometry, pigments, microscopy, in situ imaging, genetic analyses); and trophic fluxes through micro- and mesozooplankton grazing, remineralization and export. Biogeochemical and food web elements of the study are linked by CSIA-AA (N source, TP), 15N-constrained budgets and modeling. The project elements comprise an end-to-end coupled biogeochemistry-trophic study as has not been done previously for any pelagic ecosystem.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Description from the program website:
The Second International Indian Ocean Expedition (IIOE-2) is a major global scientific program which will engage the international scientific community in collaborative oceanographic and atmospheric research from coastal environments to the deep sea over the period 2015-2020, revealing new information on the Indian Ocean (i.e. its currents, its influence upon the climate, its marine ecosystems) which is fundamental for future sustainable development and expansion of the Indian Ocean's blue economy. A large number of scientists from research institutions from around the Indian Ocean and beyond are planning their involvement in IIOE-2 in accordance with the overarching six scientific themes of the program. Already some large collaborative research projects are under development, and it is anticipated that by the time these projects are underway, many more will be in planning or about to commence as the scope and global engagement in IIOE-2 grows.
Focused research on the Indian Ocean has a number of benefits for all nations. The Indian Ocean is complex and drives the region's climate including extreme events (e.g. cyclones, droughts, severe rains, waves and storm surges). It is the source of important socio-economic resources (e.g. fisheries, oil and gas exploration/extraction, eco-tourism, and food and energy security) and is the background and focus of many of the region's human populations around its margins. Research and observations supported through IIOE-2 will result in an improved understanding of the ocean's physical and biological oceanography, and related air-ocean climate interactions (both in the short-term and long-term). The IIOE-2's program will complement and harmonise with other regional programs underway and collectively the outcomes of IIOE-2 will be of huge benefit to individual and regional sustainable development as the information is a critical component of improved decision making in areas such as maritime services and safety, environmental management, climate monitoring and prediction, food and energy security.
IIOE-2 activities will also include a significant focus on building the capacity of all nations around the Indian Ocean to understand and apply observational data or research outputs for their own socio-economic requirements and decisions. IIOE-2 capacity building programs will therefore be focused on the translation of the science and information outputs for societal benefit and training of relevant individuals from surrounding nations in these areas.
A Steering Committee was established to support U.S. participation in IIOE-2. More information is available on their website at https://web.whoi.edu/iioe2/.