Plankton, Aerosol, Cloud, ocean Ecosystem

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Plankton, Aerosol, Cloud, ocean Ecosystem (PACE)
PACE Spacecraft beauty2.jpg
An artist's concept of NASA's PACE spacecraft in orbit.
NamesPre-Aerosol, Cloud, and ocean Ecosystem
Mission type Remote sensing
Operator NASA / GSFC
COSPAR ID 2024-025A OOjs UI icon edit-ltr-progressive.svg
SATCAT no. 58928 OOjs UI icon edit-ltr-progressive.svg
Website pace.oceansciences.org/home.htm
Mission duration3-10 years (planned)
8 months, 13 days (in progress)
Spacecraft properties
SpacecraftPACE
Manufacturer Goddard Space Flight Center
Launch mass1,694 kg (3,735 lb)
Dimensions1.5 m × 1.5 m × 3.2 m (4 ft 11 in × 4 ft 11 in × 10 ft 6 in)
Power1000 watts
Start of mission
Launch date8 February 2024, 06:33 (8 February 2024, 06:33)  UTC [1] [2]
Rocket Falcon 9 Block 5 (B1081.4)
Launch site Cape Canaveral, SLC40
Contractor SpaceX
Orbital parameters
Reference system Geocentric orbit
Regime Sun-synchronous orbit
Altitude676.5 km (420.4 mi)
Inclination 98°
Period 2-day global coverage 60° instrument view angle
Transponders
Band S-Band: Command & Telemetry
Ka-Band: Science Data
PACE Mission Logo.png
PACE mission logo

Plankton, Aerosol, Cloud, ocean Ecosystem (PACE) is a 2020s NASA Earth-observing satellite mission to observe global ocean color, biogeochemistry, and ecology, as well as the carbon cycle, aerosols and clouds. [3] PACE is intended to be used to identify the extent and duration of phytoplankton blooms and improve understanding of air quality. [4] These and other uses of PACE data are expected to benefit the economy and society according to NASA, especially sectors that rely on water quality, fisheries and food security. [5]

Contents

Despite being proposed for cancellation under President Trump's FY 2018 budget, the program was funded by Congress in 2018. [6] The PACE project is managed by NASA Goddard Space Flight Center. [7] The main instrument and bus were designed and built at Goddard Space Flight Center. [8]

On 4 February 2020, NASA announced the selection of SpaceX to launch PACE on a Falcon 9, at a total cost to NASA of US$80.4 million, including the launch service and other mission-related costs. [9] The total cost of the mission is $964 million, which includes spacecraft construction, launch, and operations. [10] PACE successfully launched on 8 February 2024 at 06:33 UTC. [11] On 17 April 2024 it was announced that first operational data was received. [12]

History

The Pre-Aerosol, Cloud, and ocean Ecosystem satellite (PACE) [13] was approved to move forward out of its preliminary stage of planning on 16 June 2016 at the Key Decision Point-A (KDP-A) event. According to project manager Andre Dress, a significant milestone for the next stage was that the official mission budget became available for use on 1 July 2016. [8]

Science overview

PACE has two fundamental science goals: "to extend key systematic ocean color, aerosol, and cloud data records for Earth system and climate studies, and to address new and emerging science questions using its advanced instruments, surpassing the capabilities of previous and current missions". [3] The ocean and atmosphere are directly connected, moving and transferring energy, water, nutrients, gases, aerosols, and pollutants. Aerosols, clouds, and phytoplankton can also affect one another. [3]

PACE will measure atmospheric particles and clouds that scatter and absorb sunlight. Improved characterization of aerosol particles will enable quantifying their impact on marine biology and ocean chemistry, as well as Earth's energy budget and ecological forecasting. [3] PACE will enable scientists to better monitor fisheries, identify harmful algal blooms, and observe changes in marine resources. The color of the ocean is determined by the interaction of sunlight with substances or particles present in seawater such as chlorophyll, a green pigment found in most phytoplankton species. By monitoring global phytoplankton distribution and abundance, the mission will contribute toward understanding the complex systems that drive ocean ecology. [3]

Instruments

PACE in the clean room GSFC 20231031 PACE 030771.jpg
PACE in the clean room

The oceans play a critical role in supporting life on Earth as well as the global economy. To understand changes in ocean health related to climate change; [3] formulation of science objectives and sensor requirements for an advanced ocean biology satellite mission began in the year 2000 with a NASA agency-wide carbon cycle initiative that included ocean, terrestrial, and atmospheric disciplines.

The instrument requirements for this ocean ecology mission are: [3]

Mission

Launch

PACE spacecraft, encapsulated inside a Falcon 9 payload fairing, being transported to Space Launch Complex 40 on Thursday, 1 February 2024. PACE Spacecraft Transport from Astrotech to SLC-40 (KSC-20240201-PH-JBS01 0036).jpg
PACE spacecraft, encapsulated inside a Falcon 9 payload fairing, being transported to Space Launch Complex 40 on Thursday, 1 February 2024.
Launch of the PACE spacecraft aboard a Falcon 9 rocket PACE Launch.jpg
Launch of the PACE spacecraft aboard a Falcon 9 rocket

PACE was launched on 8 February 2024, at 06:33 UTC instantaneous launch window, on a SpaceX Falcon 9 rocket from Cape Canaveral Space Launch Complex 40, after two days of delays caused by bad weather. Shortly after launch, the rocket performed a dogleg maneuver to place it in a southbound trajectory. After first stage separation, the Falcon 9 booster performed a boostback burn and returned to land on the launch site, where it will be refurbished and reused on future flights. This was the fourth flight of this particular booster, which is designated B1081. The second stage of the rocket-propelled PACE into its final orbit at an altitude of 676.5 kilometers and the spacecraft was separated about 13 minutes after launch. [19] [10]

Unusual for an east coast launch, this was a polar launch that placed the spacecraft into a Sun-synchronous orbit, a type of orbit commonly used on observation satellites because it sees a given spot on Earth at the same time every day. These launches are usually carried out from Vandenberg Space Force Base in California, to prevent debris from landing on populated areas, but SpaceX resumed polar launches from Florida in 2020 because of its ability to land the Falcon 9 booster safely and the introduction of the Autonomous Flight Safety System on the Falcon rockets. PACE was the first US government mission to launch to a polar orbit from Florida since 1960. The choice to launch PACE from Florida was simply a matter of convenience, due to it being located closer to the Goddard Space Flight Center, where the mission is operated. [19] [20] [10]

The cost of the launch was $80.4 million. [19] After launch PACE entered a 60-day commissioning period before publication of data. [10]

See also

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