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Springfield coffee house to close south-side spot 2 months short of one-year anniversary – The State Journal-Register

Jan. 30is Grateful Coffee Co.'s final day of operation at 1370 Toronto Road.

The locally-owned coffee house is closing two months shy of its first anniversary but owners say this only marks an end for the south side-address, not the business brand.

We arent getting the foot traffic we needed, said Brandon Austin, who co-owns the business with his wife, Cana. The people who were coming were fantastic, incredibly kind. There just werent enough to make it at that location.

But were considering alternate locations where either there isnt coffee already there or the traffic is.

Last year: Owners of new Springfield coffee shop want it to be more than a mocha spot

Austin said they are turning their attention to brick-and-mortar sites on the citys retail centers on the west side and North Dirksen Parkway. Other considerations, he added, could be operating a food truck or selling roasted coffee beans to a local third-party retailer using the Grateful Coffee Co. label.

Austin did not have a timeframe on how soon the Grateful Coffee Co. name might return in any of these capacities.

Grateful Coffee Co. opened in the former Three Twigs Bakerysite last April on the heels of the local bakery striking out westward itself. The newly-christened Three Twigs Bakery & Bistro operates at 3429 Freedom Drive in Parkway Pointe Shopping Center.

Several businesses have attempted to establish the Toronto Road address as a stop for south side commuters to pick up a cup of joe. Free Press Coffee Houseopened at the site in 2017, but just lasted a year. Three Twigs called the spot home for two years.

Natalie Morris can be reached at 737-7254 or by email at natalie.sjr@gmail.com.

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Springfield coffee house to close south-side spot 2 months short of one-year anniversary - The State Journal-Register

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On a growth spurt of its own, vertical farming startup Fifth Season announces second farm location, new leadership hires – Pittsburgh Business Times

On a growth spurt of its own, vertical farming startup Fifth Season announces second farm location, new leadership hires  Pittsburgh Business Times

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On a growth spurt of its own, vertical farming startup Fifth Season announces second farm location, new leadership hires - Pittsburgh Business Times

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AutoFlight establishes first location in Europe and is seeking certification for its 4 passenger eVTOL taxi by 2025 – Electrek

Chinese eVTOL developer AutoFlight is showcasing its global expansion by officially entering Europe. The company has set up shop at Augsburg Airport in Germany, as it now seeks to to achieve certification from the European Aviation Safety Agency (EASA) for its Prosperity I eVTOL taxi. The certification program will begin this year and is expected to be completed by 2025.

AutoFlight is a Shanghai-based R&D specialist focused on autonomous flight and eVTOL technology. The company evolved from a consumer drone company called Yuneec, both of which were founded by Tian Yu.

Since graduating from R&D only to actual aircraft manufacturing, AutoFlight has successfully launched three eVTOL vehicles and has reached mass production on its V50 White Shark UAV (Unmanned Aerial Vehicle).

Last September, AutoFlight announced a successful round of Series A funding totaling $100 million, the largest sum for a Chinese eVTOL company that is until XPengs HT Aeroannounced a record $500 million in fundinglast October.

AutoFlights V1500M eVTOL taxi was unveiled at an airshow in China around the same time as the funding announcement. Unlike earlier AutoFlight eVTOLs, the V1500M is designed specificallyto transport passengersin the urban air mobility (UAM) space.

Last Fall, Autoflight completed the maiden voyage of its V1500M manned eVTOL as it seeks certification in China. With its most recent news, the company looks to do the same in Germany using its eVTOL taxi.

AutoFlight announced its expansion into Europe via a recent press release outlining its plan of attack for certification. The European team is led by former Airbus manager Mark R. Henning, who recently joined the AutoFlight team. He spoke about the companys new presence overseas:

We are bringing aircraft construction back to Augsburg, creating a high-tech location and jobs as we build drones and create a completely new market segment for airtaxis. What I really like about AutoFlight and Prosperity I is the underlying simple concept. Simplicity translates into safety and efficiency.

The Prosperity I appeared to be based off the fully-electric V1500M eVTOL taxi, which can transport up to three passengers in addition to the pilot, and luggage up to 3,307 lbs. The carbon fiber fuselage carries ten electric motors and ten propellers that are situated safely above the cabin, unlike many eVTOL competitors.

For forward flight, the eVTOL aircraft utilizes its two rear pusher propellers, delivering a cruise speed of 200 km/h (124 mph) and a range of 250 km (155 miles).

AutoFlight designed the autonomous aircraft with four landing legs rather than retractable wheeled landing gear toreduce the complexity of the vessel, while also limiting its weight and overall production cost. AutoFlight refers to this as its lift and cruise configuration.

Hennings teams first task is to achieve European Aviation Safety Agency (EASA) certification for the eVTOL taxi beginning this year. AutoFlight believes it can receive EASA certification by 2025.

Additionally, the growing team in Augsburg will operate out of a dedicated R&D and certification center and plans to establish additional locations for test and demonstration flights across Europe. AutoFlight states it is now ready to build its Prosperity I eVTOL taxi and will provide a progress update to its transition tests in a few weeks.

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AutoFlight establishes first location in Europe and is seeking certification for its 4 passenger eVTOL taxi by 2025 - Electrek

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Refuge Coffee opens new location in The Woodruff Arts Center – WABE 90.1 FM

Clarkston, Georgia, is known as the most diverse square mile in the United States. Its population adds about 2,500 refugees from more than 45 countries each year. In 2015, Kitti Murray established Refuge Coffee Company in Clarkston, a nonprofit that employs refugees and offers job training and mentorship. Now, a new location for Refuge welcomes visitors in Midtown Atlanta at the Woodruff Arts Center. Murray joined City Lights host Lois Reitzes via Zoom to talk more about this expansion and the mission of Refuge Coffee.

Murray and her husband moved to Clarkston nine years ago, at a time when her work focused on writing. She confessed that her first inspiration for creating Refuge wasnt especially high-minded. I love coffee shops, and at that time, there wasnt one near where we lived, said Murray. I thought, Wouldnt it be great if we had a coffee shop in Clarkston?

But as a self-identified natural networker and a people person, Murrays idea soon grew in scope. We immediately started to get to know all our neighbors, and youve already mentioned how many countries our neighbors are from, Murray said. What that translates into is just this beautiful mashup of cultures and languages, and also, most of the people who come from those countries are survivors. And theyre heroic and resilient people.

Murray continued, I immediately wanted everybody in my old world to meet all my new friends in my new world, and so the thought of a coffee shop that could bring those worlds together I just felt like it needed to happen.

Murray recognized the need for employment that challenged many of her neighbors, and she wanted her coffee shop to mean more than just a business opportunity for her own family. The idea of connecting her community expanded into a broader vision of opportunity for everyone involved. But first things first she had to start the business. Honestly, if you added my business acumen and my husbands together, you would come up with a negative number, joked Murray.

Refuge Coffee began as a coffee truck, low-risk, low-rent and flexible. Eventually, the Murrays moved their business into an old gas station near the parking lot where their truck usually set up and soon officially bought the space. At that point, Refuge moved decisively into community organizing, fundraising, and setting up job training for neighborhood residents. I felt like I was jumping off a cliff every day for the first two years, said Murray. But it was that good scary, you know, its like Im jumping off a cliff into a lagoon with a lot of friends who are swimming.

While Refuge continues to develop its job training and mentorship opportunities through the challenge of the pandemic, the Woodruff Arts Center location invites a new neighborhood into Murrays culture of welcoming. Though multicultural events like Refuges popular annual Iftar dinners (the fast-breaking meal ending each day of Ramadan in Islamic tradition) are on hold for now, Murray expressed her hope that chances to gather will soon return and keep immigrant community members feeling connected and celebrated.

I do love that Clarkston is a good reminder that this is a human crisis, Murray said. The people that live in Clarkston are hopeful and want to have a future, and want to work hard, and dont want to take anything from anybody. They just want to be able to live freely and as contributors.

More about the opportunities and projects at Refuge Coffee Co. is available at http://www.refugecoffeeco.com.

**Join us for Swag Search, a scavenger hunt for new WABE swag at 8 locations across the city on January 26 from 12-2 p.m. This segment already had a location clue, but follow us on social @WABEATL to discover more!

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Refuge Coffee opens new location in The Woodruff Arts Center - WABE 90.1 FM

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Covid-19: Locations of interest in the Delta outbreak – January 21 – Stuff.co.nz

An eye clinic in Rotorua and Chemist Warehouse in Auckland have been listed as the latest locations of interest linked to the Covid-19 outbreak.

People who visited the Rotorua Eye Clinic on Fairy Springs Rd on Tuesday between 1.37pm and 2.27pm, and Chemist Warehouse in Westfield Manukau on Wednesday between 8.40pm and 9pm, are being asked to self-monitor for symptoms for 10 days.

Earlier on Friday afternoon Anzor Fasteners on Tremaine Ave was added to the Ministry of Healths official list for anyone who visited on Wednesday between 12.05pm and 12.15pm. Additionally, those who visited the branch on Monday between 3.20pm and 3.29pm were asked to self-monitor for Covid-19 symptoms.

All locations of interest in Palmerston North that were added to the ministrys list on Friday were linked to an Omicron case.

READ MORE:* Covid-19: Everything we know about the suspected Omicron case in Palmerston North * Covid-19: Locations of interest in the Delta outbreak - January 20 * Covid-19: Positive case in Palmerston North possibly Omicron

Those who travelled on the same flight as a confirmed Omicron case in Palmerston North were asked to get tested for Covid-19 as soon as possible.

On Friday, the Ministry of Health said an assumed Omicron case had been confirmed.

A spokesman for the prime minister said given the case was still border-related, it did not currently meet the threshold to shift the country in the red traffic light setting.

The case, who had been staying in an MIQ facility, travelled on flight NZ550 from Christchurch at 2pm on Sunday, arriving in Auckland at 3.20pm. They then travelled on NZ5121 from Auckland to Palmerston North at 4.55pm.

The case is considered to be infectious from January 17, but anyone who travelled on either of those flights is asked to get a test as soon as possible as a precaution.

A bus route in Rotorua was earlier listed as a new location of interest linked to the Covid-19 outbreak.

John Selkirk/Stuff

SkyCity Auckland Casinos main gaming floor was added to the Ministry of Healths official list on Friday. (File photo).

Bus 1247 on route 11 from Fenton Park on McKee Ave to Arawa St was listed for January 13 between 12.54pm and 1.10pm, as well as SkyCity Auckland Casinos main gaming floor.

Those who visited the casino between 12.23am and 2.23am on Tuesday were being asked to self-monitor for Covid-19 symptoms for 10 days after being exposed and if symptoms develop, get a test and stay at home until returning a negative test.

Earlier, New World Broadway in Palmerston North between 11am and 12.30pm on Tuesday was also added to the list. This exposure was considered to be linked to an assumed Omicron case, the ministry said.

Also added to the list was Auckland buffet restaurant Gengis Khan in Henderson between 6.40pm and 9.45pm on Monday, and Wild Child and Wild Families Kirks Bush on Beach Rd, Papakura, between 8.27am and 12pm on January 15.

Those who visited these locations were also being asked to self-monitor for Covid-19 symptoms for 10 days after being exposed and if symptoms develop, get a test and stay at home until returning a negative test.

NEW WORLD / SUPPLIED

New World Broadway in Palmerston North, believed to be linked to an assumed Omicron case, was added to the Ministry of Healths official list on Friday. (File photo).

Both locations were relating to a close contact, the ministrys website said.

Anyone who was at either location during these times is urged to self-isolate, test immediately and again on day five after exposure. Further isolation and testing requirements would be provided by Public Health, the ministry said.

Eighteen locations were added to the Ministry of Healths official list on Thursday.

Of these, several Palmerston North locations were thought to be linked to an assumed Omicron case, which was confirmed on Friday, while Auckland cafe Ara-Tai Cafe Half Moon Bay was confirmed as being linked to an Omicron case on Thursday.

This prompted health authorities to urge anyone at the cafe between 12.30pm and 2pm on Tuesday to self-isolate and get tested immediately and again on day five after being exposed.

Peter Meecham/Stuff

An Auckland buffet and the location of a family park event are the latest locations of interest linked to the Covid-19 outbreak on Friday morning. (File photo).

The locations added on Thursday:

Anyone who visited these locations during these times is asked to self-monitor for Covid-19 symptoms for 10 days after being exposed, get tested if any symptoms arise and stay at home until returning a negative test result.

The below list can be viewed in two ways: Date of visit (locations added today have the word NEW beside them) or, if you switch the toggle to Date included, newly added locations appear at the top of the list.

If you were at a location of interest at one of the specified times, you may need to self-isolate and be tested. Follow the instructions for that location on the Ministry of Health website and call Healthline on 0800 358 5453 for advice on testing.

This list is automatically updated as soon as locations of interest appear on the Ministry of Health website.

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Covid-19: Locations of interest in the Delta outbreak - January 21 - Stuff.co.nz

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8 Best 5G Stocks to Buy in 2022 – WTOP

Here are eight stocks benefiting from the 5G boom. In the past few years, 5G has transitioned from a trendy

Here are eight stocks benefiting from the 5G boom.

In the past few years, 5G has transitioned from a trendy tech buzzword to one of the largest near-term growth trends on Wall Street. Wireless providers are rolling out 5G networks all over the world. These next-generation networks allow for faster, higher-quality internet connections; greater global connectivity; increased capacity for advanced connected software applications; and less latency for users. Multinational telecom company Ericsson estimates that there will be 4.4 billion 5G subscribers by the end of 2027 thanks to network expansions in China and North America and new 5G-enabled device launches. Here are eight of Bank of Americas top 5G stocks to buy.

Verizon Communications Inc. (ticker: VZ)

When it comes to 5G winners, network carriers are at the top of the list. Verizon recently said its 5G network will cover 100 million people in more than 1,700 cities by the end of January 2022. The company may need to revise that estimate after it agreed on Jan. 18 to pause its 5G rollout plans near some U.S. airports, but that hiccup affects a small portion of its service area. Analyst David Barden says Verizon has the most defensible customer base and the most profitable business of any of the big three U.S. wireless providers. Barden says asset divestments have improved the companys balance sheet, and Verizon shares also pay a 4.8% dividend. Bank of America has a buy rating and a $64 price target for VZ stock, which closed at $53.50 on Jan. 19.

Digital Realty Trust Inc. (DLR)

Digital Realty Trust is Bardens top 5G data center stock pick for 2022. Barden says Digital Realtys exposure to emerging growth markets in Africa, Asia and India will help the company outperform peers in 2022 and beyond. Digital Realty recently announced plans to acquire a 55% stake in African data center provider Teraco Data Environments Pty. Ltd. for about $1.73 billion, and Barden says Teraco will give Digital Realty a dominant footprint in a high growth market. Barden says Digital Realty has also successfully navigated rising power prices in recent quarters. Bank of America has a buy rating and a $190 price target for DRT, which closed at $154.93 on Jan. 19.

Equinix Inc. (EQIX)

Equinix is the worlds largest data center operator. Barden says Equinixs September acquisition of GPX India Pvt. Ltd. will help the company tap into the growing South Asian market. In November, Equinix announced a partnership with Dish Network Corp. (DISH) to provide connectivity infrastructure for Dishs 5G network. Barden says network-neutral co-location will drive growth for Equinix thanks to its unique market positioning. He says the stock is undervalued given the companys strong and highly visible growth outlook and the stickiness of its current business. Bank of America has a buy rating and an $865 price target for EQIX stock, which closed at $730.49 on Jan. 19.

SBA Communications Corp. (SBAC)

SBA Communications operates 5G wireless communications towers and is Bardens top 2022 stock pick among tower operators. Barden says carriers will spend aggressively to expand their 5G networks this year, which is great news for tower operators. SBA generates more than 80% of its revenue from the U.S. market, making it better positioned for the 2022 5G ramp-up than other international tower companies. In addition, Barden says SBA is relatively insulated from regulatory headwinds, rising interest rates and the ongoing pandemic and has best-in-class assets. Bank of America has a buy rating and a $365 price target for SBAC stock, which closed at $321.23 on Jan. 19.

Ciena Corp. (CIEN)

Ciena is one of analyst Tal Lianis top 5G network infrastructure picks for 2022. Liani says Cienas revenue growth will increase from 2.5% in 2021 to 12% in 2022 thanks in part to booming bandwidth demand from the telecom sector. Liani says Ciena is the best investment in optical networking. Amazon.com Inc. (AMZN), Meta Platforms Inc. (FB), Alphabet Inc. (GOOG, GOOGL) and Microsoft Corp. (MSFT) accounted for more than $1 billion of Cienas orders in 2021, and the company expects aggressive spending from web-scalers in the next few years. Bank of America has a buy rating and a $91 price target for CIEN stock, which closed at $68.21 on Jan. 19.

F5 Inc. (FFIV)

F5 is Lianis other top 5G network infrastructure stock pick. He says F5 has multiple catalysts that could potentially drive revenue growth acceleration this year, including aggressive data center investments and an uptick in software revenue stemming from three-year contract renewals. Liani says F5s impressive growth numbers are a testament to its successful transition from hardware sales to software sales. In addition, F5 is expanding its security portfolio, and recent acquisition Threat Stack Inc. should add about $15 million in fiscal 2022 revenue. Bank of America has a buy rating and a $285 price target for FFIV stock, which closed at $222.80 on Jan. 19.

American Tower Corp. (AMT)

American Tower is a specialized real estate investment trust that owns a portfolio of wireless communications towers. Barden says towers are a critical and stable part of the wireless network infrastructure, making stocks such as AMT excellent long-term investments. American Tower has also been expanding its holdings into the data center market. Wireless subscriber and usage growth are tail winds for AMT, and Barden says the company has the most conservative balance sheet among its peers. On top of that, AMT shares pay a 2.2% dividend. Bank of America has a buy rating and a $315 price target for AMT stock, which closed at $249 on Jan. 19.

Marvell Technology Inc. (MRVL)

Marvell Technology is a semiconductor company that serves the data storage, communications and consumer markets. Analyst Vivek Arya says Marvells 5G network opportunity is still in the early stages and projects that the companys annual 5G revenue run rate will increase from less than $600 million in late 2021 to $800 million by the end of 2022. Arya says Marvells stock trades at a valuation premium to its semiconductor peers, but that premium is more than justified by the companys best-in-class 33% compound annual earnings growth rate. Bank of America has a buy rating and a $115 price target for MRVL stock, which closed at $76.89 on Jan. 19.

8 best 5G stocks to buy in 2022:

Verizon Communications Inc. (VZ)

Digital Realty Trust Inc. (DLR)

Equinix Inc. (EQIX)

SBA Communications Corp. (SBAC)

Ciena Corp. (CIEN)

F5 Inc. (FFIV)

American Tower Corp. (AMT)

Marvell Technology Inc. (MRVL)

More from U.S. News

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7 High-Risk Stocks for Aggressive Investors

8 Best 5G Stocks to Buy in 2022 originally appeared on usnews.com

Update 01/20/22: This story was previously published at an earlier date and has been updated with new information.

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8 Best 5G Stocks to Buy in 2022 - WTOP

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When is the Carabao Cup final? Date, time and location of Liverpool v Chelsea – Liverpool Echo

A Diogo Jota brace fired Liverpool to the Carabao Cup final, where they will face Chelsea.

After drawing the first leg 0-0 at Anfield, the Reds proved too much to handle in north London as Arsenal had no answer to the movement and finishing of the two-goal Diogo Jota and Co.

Victory at Wembley Stadium will secure a record-breaking ninth League Cup for Liverpool, despite not having won the competition since 2012.

Manchester City are currently tied with the Reds on eight victories after winning the past four finals.

But a new name will be on the trophy this year.

So when is the 2022 Carabao Cup final being played?

PLAYER RATINGS: Trent Alexander-Arnold and Diogo Jota too good for Arsenal

IAN DOYLE: Diogo Jota earns new song as deadly Liverpool partnership emerges at Arsenal

Liverpool will meet Chelsea in the final at Wembley Stadium on Sunday, February 27, 2021.

Chelsea booked their place in the final with a 3-0 aggregate victory over Tottenham Hotspur.

A kick-off time has yet to be confirmed but traditionally the fixture begins at 4.30pm.

The winners of the final will be automatically placed in next season's UEFA Europa Conference League.

But should the winner also qualify for Europe through any other means this season, their place in the UEFA Europa Conference League will be transferred to the highest-placed Premier League side not already qualified for European competition.

Sky Sports owns the exclusive rights to the Carabao Cup, so the final is likely by shown on Sky Sports Main Event and Sky Sports Football.

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When is the Carabao Cup final? Date, time and location of Liverpool v Chelsea - Liverpool Echo

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Newly constructed houses you can buy in Winston-Salem – Winston-Salem Journal

Stunning new J. Reader Construction home in The Arbors at Brookberry Farm! Main level features include: a chefs kitchen with quartz counters and back lit cabinets. Huge pantry and drop zone area. Coffered ceilings in the family room with gas fireplace. Primary bedroom with with ensuite bathroom including a soaking tub, separate shower, dual vanity, and water closet, primary bedroom closet that connects directly to the laundry room. Second level includes: 3 bedrooms, two sharing a jack and jill bathroom and one with a separate bathroom. Office/media room and large bonus room for all your flex needs! Enjoy all of the Brookberry amenities including, pool, tennis, clubhouse, exercise center, event barn and more!

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Newly constructed houses you can buy in Winston-Salem - Winston-Salem Journal

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COVID-19 Testing Site Moving To New Location – jocoreport.com

SMITHFIELD A new COVID-19 testing site will be available for Johnston County residents starting Tuesday, January 25. The four-lane, drive-thru testing site will be located at the Brightleaf Flea Market at 2320 South Brightleaf Boulveard in Smithfield.

Testing is free and will begin at 11:00 a.m. on January 25. No appointments necessary. Regular hours for the Brightleaf Flea Market testing site will be Monday- Saturday from 9:00 a.m.- 6:00 p.m.

OptumServe will be administering the COVID-19 tests at the drive-thru site through their continued partnership with the Johnston County Public Health Department.

The testing site at the Smithfield Mens Progressive Club will close on Monday, January 24 at 5:00 p.m. in order to begin the move to the new site.

To find more COVID-19 testing sites in or near Johnston County visit: http://www.johnstonnc.com/covid19/outsidetesting.cfm.

To request up to four, free at-home COVID tests visit: https://special.usps.com/testkits.

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COVID-19 Testing Site Moving To New Location - jocoreport.com

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A hydrological simulation dataset of the Upper Colorado River Basin from 1983 to 2019 | Scientific Data – Nature.com

Site

The Upper Colorado River Basin (UCRB) is a snowmelt-dominated system that covers about 280,000 km2. It extends from headwaters in the Rockies in Colorado and Wyoming to Lees Ferry in Northern Arizona with elevation ranges between 3300m and 900m. During the winter season, from October to the end of April, the snow cover area (SCA) for the UCRB ranges from 50,000 km2 to 280,000 km2 which plays a crucial role in energy28 and hydrological cycles29.

The hydrologic simulation of the UCRB was conducted using the integrated hydrologic model, ParFlow-CLM30,31,32. ParFlow computes both the surface and subsurface fluxes by solving the Richards equation33 in three spatial dimensions together with the kinematic wave equation over a terrain following grid. Furthermore, ParFlow is coupled to a land surface model (Common Land Model; CLM), ParFlow-CLM, to resolve the energy and water balances from the canopy to the ground surface.

The technical details of ParFlow-CLM are well-documented in Maxwell and Miller30, Kollet and Maxwell31,34, Kollet et al.35, Maxwell et al.36, Jefferson and Maxwell37, Maxwell and Condon38 and Kuffour et al.39. ParFlow integrates groundwater and surface water systems using a free surface overland flow boundary condition31. In other words, the surface water and variably saturated groundwater flow equations directly exchange fluxes without a conductance layer. In ParFlow, streams are formed by either Hortonian (excess infiltration40) or Dunne (excess saturation41) runoff without the need of a priori embedded rivers.

CLM is the land surface component of the model. CLM solves the terrestrial energy balance (e.g. net radiation, sensible, latent and ground heat fluxes) in addition to a multi-layer snow model42 and a complete canopy water balance. Sensible and latent heat are solved through a resistance scheme including soil, vegetation and atmospheric resistances43. The ground heat is calculated based on the one-dimensional heat conduction equation35. Ground and sensible heat fluxes are directly dependent on the water content in soil layers which is solved by ParFlow34. Conversely, soil moisture is also dependent on infiltration and plant uptake which is passed back to ParFlow by CLM34,37,44.

The main inputs in this study can be divided into two groups: dynamic atmospheric forcing and static model parameters. The first group of inputs includes a subset from the North American Land Data Assimilation System (NLDAS) project. The second group of inputs includes two types of model parameters: surface information (i.e. topographic slopes and land cover) and subsurface information (i.e. soil, geology and bedrock types and their characteristics).

The NLDAS project is a collaboration between NASA, NOAA and a group of universities to provide high accuracy and consistent datasets for a wide variety of hydrologic studies. Studies modeling streamflow45,46, soil moisture47,48 and snow49,50 have been using NLDAS as inputs. Thus, we decided to use a subset of the NLDAS dataset for this simulation which includes eight variables, namely, precipitation, air temperature, short-wave radiation, long-wave radiation, east-west wind speed, south-north wind speed, atmospheric pressure and specific humidity. The NLDAS has two versions which were used in this study: NLDAS-151,52 which spans from 1983 to 2002 and NLDAS-245,53 which spans from 2003 to 2019. Major improvements from NLDAS-1 to NLDAS-2 include additional measurement sources of precipitation such as gauge (Climate Prediction Center - CPC product), radar (National Centers for Environmental Prediction-NCEP 4-km hourly Doppler radar Stage II) and satellite (CPC MORPHing technique CMORPH)45.

The model parameters consist of two types: surface and subsurface. The surface parameters, topographic slopes and land cover, were computed as follows. Topographic slopes were calculated using the Priority Flow toolbox54 with an elevation input from the Hydrological data and maps based on Shuttle Elevation Derivatives at multiple Scales (HydroSHEDS). Land cover information was obtained from the National Land Cover Database (NLCD) at 30-m resolution. The obtained land cover dataset was then upscaled to model resolution at 1-km. Land cover values are based on the International Geosphere-Biosphere Program (IGBP) classifications.

The subsurface of the ParFlow domain consists of four soil layers at the top and one geology layer at the bottom. Categories for the soil units were obtained from the Soil Survey Geographic Database (SSURGO; https://websoilsurvey.sc.egov.usda.gov) and hydrogeologic categories were obtained from a global permeability map developed by Gleeson et al.55. Parameters such as saturated hydraulic conductivity and van Genuchten relationships of those soil and hydrogeology layers were obtained from Schaap and Leij56. More details about the subsurface parameters and configurations can be found in Condon and Maxwell57, and Maxwell et al.36.

A model spinup is the initialization process used to bring the system into a more realistic set of initial conditions when the true starting point of the model (for example, the pressures everywhere in the UCRB) is unknown. This starting point is particularly important for groundwater systems which take longer time to evolve than the surface systems.

In preparation for the 37-year simulation, we completed a model spinup in two steps. First, potential recharge (calculated as Precipitation Minus Evapotranspiration (PME)) was applied to the model until the change in subsurface storage was less than 3% of the total storage. The potential recharge PME was derived from the average precipitation and evapotranspiration products for the period between 1950 and 2000 by Maurer et al.58. For the second step, the hourly atmospheric forcing for the initial water year (1983) was repeatedly applied to bring the model into quasi-equilibrium.

The spinup process described above provided an initial pressure model of the UCRB for the 37-year simulation. To do this, we simulated each year for a time period spanning from October to the end of September next year, often known as the Water Year (WY) which better matches with the precipitation cycle that occurs in late autumn. All simulations were executed on the Cheyenne supercomputer operated by the National Center for Atmospheric Research (NCAR). On average, one WY simulation used about 6,100 cores hours, which resulted in about a day of wall-clock time given parallel computing and batch submission processes. The entire 37-year simulation used approximately 220,000 core hours of computing time, spanning about 1.2 months of wall-clock time.

A comprehensive comparison between model simulation results, observations and remotely sensed products was conducted. A summary of each dataset is provided below.

Streamflow observations were compiled from the USGS Water Data web service. Since this was a pre-development simulation (i.e. excluding surface water management and groundwater pumping), we filtered out observations from stations that are clearly affected by anthropogenic activities. Although small drainage area basins can have water withdrawals and irrigation ditches, the effect of anthropogenic activities on these basins are much less compared to larger drainage area basins, especially in monthly or annual scales59,60. Thus, we defined a drainage area threshold of 500 km2; stations whose drainage areas are larger than the threshold were then manually inspected. For example, we removed the station at Lees Ferry (drainage area: 289,560 km2) located right after the Glen Canyon Dam.

In total, there were a total of 602 UGSG stream stations in the UCRB with observations from 1983 to 2019 (shown as blue stars in Fig.1). Eight stations situated at the outlet of watersheds that represent medium to large drainage areas were used for comparison demonstration in Fig.2. These stations were: Green River at Green River (116,160 km2), Colorado River near Cisco (62,419 km2), San Juan River near Bluff (59,570 km2), Yampa River at Deerlodge (20,541 km2), Gunnison River near Grand Junction (20,520 km2), Colorado River below Glenwood Springs (15,576 km2), San Juan River at Four Corners (37,813 km2), and East River at Almont (749 km2).

(a) Location and type of observations used to compare observations and data products to model simulations, (b) Locations of the UCRB and its major sub-basins.

Plots of simulated and observed streamflow for eight gages within the UCRB. Streamflow predicted by ParFlow is shown using the red line while streamflow predicted by the natural flow model is shown in blue.

In addition to the USGS stream observations, we also used the Bureau of Reclamation natural flow dataset61,62,63,64,65,66 which is available for 20 stations in the UCRB from 1906 to 2020. The natural flow was constructed by combining history gauge flow with consumptive uses and losses64 and reservoir regulation66. The dataset has been used in several other studies including drought analysis in the UCRB67,68,69.

The next observational set was the USGS groundwater database (https://waterdata.usgs.gov/nwis/gw). All data from wells that have at least two months of observations during the period between 1983 and 2019 were used for comparison here. Measurements that did not pass the USGS quality control (i.e. flagged for potential measurement inconsistency or negative outlier values) were filtered out. Also, wells with water table depths (WTD) below 52m (i.e. below the depth for the center of the bottom grid cell in the model domain) were removed. A total of 36 wells were used to compare water table levels after this filtering process (shown as blue hexagons in Fig.1).

In addition to these temporal groundwater observations, there are a total of 3,865 well locations in the UCRB from the Fan et al.70 water table observations. Fan et al.70 compiled this water table observational dataset by calculating the average WTD for USGS sites between 1927 and 2009. While Fan et al.70 noted that about 90% of the wells have only one observation at different times, they found that wells whose WTD were above 20m aligned well with their global simulated WTD. Based on these findings, their dataset was determined to be an appropriate resource to validate model performance.

We also employed a derived snow cover extent from MODIS for comparison to simulations. The daily cloud-free snow cover dataset71 was developed via a series of mitigated cloud filters and the Variational Interpolation algorithm to the MODIS-Snow Cover Area (SCA) Daily (MOD10C1 and MYD10C1) version 6 product12,72. The product has been proved to effectively capture the dynamic changes of snow from 2000 to 2017 with the average of Probability Of Detection and False Alarm Ratio are 0.955 and 0.179, respectively71. The cloud-free products spatial and temporal resolutions are 0.05 and daily, respectively.

The Snow Water Equivalent (SWE) data was obtained from the Snow Telemetry (SNOTEL) network. There was a total of 133 SNOTEL stations used for comparison. SNOTEL stations have an average elevation of nearly 2,900m with the station in the highest elevation of more than 3,500m at the Italian Creek, CO.

Total water storage (TWS) change measured by the Gravity Recovery and Climate Experiment (GRACE) mission was used to compare with simulated TWS. Launched in 2002, GRACE estimates monthly changes in terrestrial water storages globally based satellite location (http://www2.csr.utexas.edu/grace/RL05_mascons.html). The data used in this study, CSR Release-06 GRACE Mascon Solutions, was released from the Center for Space Research (CSR), the University of Texas at Austin. Mass fluxes (measured in terms of mass concentrationmascon) derived directly from raw GRACE data often have north-south stripes due to modeling errors, measurement noise and observability issues73. To decrease the uncertainty in these mass fluxes, a series of filters were applied to GRACE gravity information in a 1 geodesic grid domain. Those filters include (1) mascon geodesic grid correction, (2) Glacial Isostatic Adjustment (GIA) correction, (3) Degree-1 coefficients (Geocenter) corrections and (4) C20 (degree 2 order 0) replacement. The final total water storage change is obtained by subtracting the mean from 2003 to 2009. Please note that GRACE measures the storage anomaly at approximately monthly intervals, but it does not measure total quantity of water stored. GRACE storage anomalies were available monthly from April 2002 to June 2017 at the time of this analysis with a spatial resolution of 1. Given the relatively low spatial resolution, Scalon et al.19 suggested to use GRACE only for watersheds which have areas greater than 100,000 km2 (The area of the UCRB is approximately 280,000 km2). Uncertainty analysis for CSR RL06 is not available yet, however, uncertainty value suggested for the RL05 version is roughly 2 cm73.

Four stations from the Community Collaborative Rain, Hail and Snow Network (CoCoRaHS) provide potential ET estimates. Additionally, the AmeriFlux station at Niwot Ridge, CO (US-NR174,75) provides latent heat observations (which can be translated directly to ET by dividing to a unit of latent heat of evaporation of water 2256kJ/kg). While ET stations are scarce in the UCRB, because of the diversity in their locations and temporal coverage, we feel that those observations still play a crucial role in the simulation evaluation. First is the range of elevation and land cover that those stations represent: two high elevation stations located at Niwot Ridge, CO (3050m) and Crested Butte, CO (2912m), one moderate elevation station located at Carbondale, CO (1887 m) and two low altitude stations located at Grand Junction, CO (1428m) and Castle Valley, UT (1464m). With respect to land cover, stations at Carbondale, CO and Crested Butte, CO are located in evergreen forest; stations at Niwot Ridge, CO and Grand Junction, CO are located in deciduous forest; the station at Castle Valley, UT is located in shrubland. We compared ParFlow simulations with CoCoRaHs data from June 2012 to present and AmeriFlux data from 1999 to present, respectively.

In addition to ET estimated from stations, we also used remotely sensed ET from Simplified Energy Balance (SSEBop) MODIS product to compare with simulated ET. The SSEBop model provides daily and 1-km ET estimations for the whole UCRB from 2000 to the end of the validation period and has been shown to be reliable in various regions76,77. Senay et al.78 simulates ET in SSEBop by using pre-defined hot and cold boundary conditions. Each pixel is assigned a hot and cold boundary values based on maximum air temperature and differential temperature. Based on land surface temperature (K) obtained from MODIS images, ET fraction is computed and then multiplied with a short grass reference (mm.d1) and a scaling coefficient to produce final ET79.

Lastly, ground temperature data from the National Oceanic and Atmospheric Administration (NOAA) Regional Climate Center (RCC) was used for comparison. The NOAA RCC data consist of observations compiled from the Global Historical Climatology Network (GHCN80) database, and other federal and regional agencies. There are a total of 490 stations that monitor temperature. These stations are well distributed over the UCRB (green diamonds in Fig.1).

Two of the remotely sensed products used for comparison, namely, MODIS-SCA and GRACE, are downscaled to match with the datasets spatial resolution of 1-km and geographic projection (specified at Table1). Specifically, MODIS-SCA and GRACE data were downscaled from 5-km and 100-km, respectively, to 1-km using the Nearest Neighbor algorithm.

For timeseries data, we primarily used two metrics to evaluate model performance, Spearmans Rho and Total Absolute Relative Bias. As explained in Maxwell and Condon38, plotting these two metrics against one another produces a figure that will concisely describe a models ability to reproduce appropriate timing and magnitude of flows. We hereafter refer to this type of figure as a Condon Diagram. Spearmans Rho was used to assess the differences in the simulated and observed variables timing while the relative bias measures differences in their volumes. If simulations are closed to observation, we expect high Speamans Rho value and low relative bias value. Spearmans Rho is computed as:

$$srho=1-frac{6{sum }_{i=1}^{n}{d}_{i}^{2}}{n({n}^{2}-1)}$$

(1)

where di is the difference in the independent ranking for the simulated and observed values at i time step, n is the number of values in each time series. The Total Absolute Relative Bias is calculated as:

$$bias=frac{left|{sum }_{i=1}^{n}{S}_{i}-{sum }_{i=1}^{n}{O}_{i}right|}{{sum }_{i=1}^{n}{O}_{i}}$$

(2)

where S and O are simulated and observed timeseries, respectively, and n is the number of values in each time series.

Additionally, we used the Kling-Gupta Efficiency (KGE81,82) to evaluate the streamflow performance. The KGE coefficient is proposed by Gupta et al.81 to achieve a more balanced evaluation of simulated mean flow, flow variability and daily correlation than the traditional Nash-Sutcliffe efficiency (NSE83)84,85.

For spatial data, we used two categorical validation indices, namely, Probability of Detection and False Alarm Ratio:

$$POD=frac{Hit}{Hit+Miss}$$

(3)

$$FAR=frac{False}{Hit+False}$$

(4)

where Hit is grid where both simulated and observed events occurred; Miss is grid cell where the observed event occurred but the simulated one did not; False is a grid cell where the simulated event occurred but the observed one did not.

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A hydrological simulation dataset of the Upper Colorado River Basin from 1983 to 2019 | Scientific Data - Nature.com