Even more troubling, why does a waste of time study like this get funded by the Department of Defense Strategic Environmental Research and Development Program? I don’t want defense money going to modeling studies on fish and streams that tell us the obvious, especially when some of the worst droughts in the Southwestern United States occurred before “climate change” was even in the lexicon, as seen below:
From the Ohio State University:
Climate Change Will Threaten Fish by Drying Out Southwest U.S. Streams, Study Predicts
Modeling suggests fish will lose habitat as steady flow of surface water is depleted
By: Emily Caldwell
COLUMBUS, Ohio – Fish species native to a major Arizona watershed may lose access to important segments of their habitat by 2050 as surface water flow is reduced by the effects of climate warming, new research suggests.
Most of these fish species, found in the Verde River Basin, are already threatened or endangered. Their survival relies on easy access to various resources throughout the river and its tributary streams. The species include the speckled dace (Rhinichthys osculus), roundtail chub (Gila robusta) and Sonora sucker (Catostomus insignis).
A key component of these streams is hydrologic connectivity – a steady flow of surface water throughout the system that enables fish to make use of the entire watershed as needed for eating, spawning and raising offspring.
Models that researchers produced to gauge the effects of climate change on the watershed suggest that by the mid 21st century, the network will experience a 17 percent increase in the frequency of stream drying events and a 27 percent increase in the frequency of zero-flow days.
“We have portions of the channel that are going to dry more frequently and for longer periods of time,” said lead author Kristin Jaeger, assistant professor in The Ohio State University School of Environment and Natural Resources. “As a result, the network will become fragmented, contracting into isolated, separated pools.
“If water is flowing throughout the network, fish are able to access all parts of it and make use of whatever resources are there. But when systems dry down, temporary fragmented systems develop that force fish into smaller, sometimes isolated channel reaches or pools until dry channels wet up again.”
This study covers climate change’s effects on surface water availability from precipitation and temperature changes. It does not take into account any withdrawals of groundwater that will be needed during droughts to support the estimated 50 percent or more increase in Arizona’s population by 2050.
“These estimates are conservative,” said Jaeger, who conducted the study with co-authors Julian Olden and Noel Pelland of the University of Washington. The study is published in the Proceedings of the National Academy of Sciences.
The researchers used a rainfall runoff model, the Soil and Water Assessment Tool (SWAT), which incorporates the study basin’s elevation, terrain, soil, land use, vegetation coverage, and both current and future climate data, including precipitation and temperature.
“It’s a hydrological model that routes water received from precipitation through the landscape, a portion of which eventually becomes streamflow in the river,” Jaeger said. “We partitioned the watershed into many smaller pieces all linked to each other, with nodes placed 2 kilometers apart throughout the entire river network to evaluate if that portion of the river channel at an individual node supported streamflow for a given day.”
Jaeger describes the river network, as envisioned by this model, as a mosaic of wet and dry patches. Piecing data from all of those nodes together, the researchers established an index of connectivity for the entire watershed, which predicts that the mid-century and late-century climate will reduce connectivity by 6 to 9 percent over the course of a year and by up to 12 to 18 percent during spring spawning months.
“The index decreases that are predicted by the model will affect spawning the most,” said Jaeger, who also holds an appointment with the Ohio Agricultural Research and Development Center. “During the spring spawning period, fish are more mobile, traveling longer distances to access necessary habitat. Projected decreased connectivity compromises access to different parts of the network.”
Flowing portions of the system will diminish between 8 and 20 percent in spring and early summer, producing lengthier channels that will dry more frequently and over longer periods of time. These changes will reduce available habitat for fish and force them to travel longer distances for resources once channels rewet, Jaeger said.
The fish are already subject to stressors on the system, including both surface and groundwater extraction for irrigation and drinking water, loss of habitat and the introduction of nonnative species that prey on the native fish, Jaeger noted. The overall system’s connectivity is also already compromised, as well, because of existing dry conditions in the American Southwest.
“These fish are important cogs in the wheel of this greater ecosystem,” Jaeger said. “Loss of endemic species is a big deal in and of itself, and native species evaluated in this study are particularly evolved to this watershed. In this river network that currently supports a relatively high level of biodiversity, the suite of endemic fish species are filling different niches in the ecosystem, which allows the system to be more resilient to disturbances such as drought.
“If species are pushed over the edge to extinction, then what they bring to the ecosystem will be lost and potentially very difficult to replace.”
This project was funded by the Department of Defense Strategic Environmental Research and Development Program.
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“However, I get to pick and choose based on what makes sense meteorologically and backed up by over 30 years of comprehensive observations”
I didn’t mean to come off sounding arrogant as I consider myself extremely fortunate to be in a profession, where following the always interesting weather part of it is very enjoyable.
When predictions bust is stinks but at least meteorologists have more opportunities to be grounded in observations/empirical data that must be reconciled with model and forecaster predictions……..every day.
Unlike a 50 year climate model projection. That time frame is about as long as the entire career of a climate scientist. If he or she is convinced of a theory, they clearly can wait years and years or as we’ve found out, go well over a decade before having to reconcile the projection with reality.
Yeah, I’d like to know if alarmists are predicting drier or wetter, scare stories usually show parched earth but does that make sense/
Meanwhile it shaping up to be a good salmon fish season in SW BC.
A bit early to tell for sockeye into the long Fraser River system, but this is the year when offspring of the huge return in 2010 would return.
Chinook returns are surprisingly strong, those Darwin Candidates called “resident orcas” will be happy as they prefer that fish. I don’t have details, IIRC that was the fish affected by relatively drier conditions in streams on Vancouver Island.
Large springs being caught by individuals.
BTW, just reading more on the life cycle of salmon, at http://www.psf.ca/, adds to my understanding that salmon cycles are not exact – one type of salmon has two common return cycles. (Most salmon are on a shorter cycle than sockeye, one variable is how long they stay near spawning areas before going to the ocean.)
A recent study of salmon from one lake in the interior of BC showed that mortality of young salmon was very dependent on water clarity as predators found them by visual means, once past the area of clear water mortality rate was far lower.
Keith Sketchley says:
August 19, 2014 at 5:12 pm
The fish-eating orcas are the hang around the fort killer whales.
Those self-starting, peppy orcas with any self-respect hunt seals and other marine mammals, as God intended them to do.
Richard G says:
August 18, 2014 at 11:34 pm
When it gets real exciting is when these two features get together and gives amazing snow dumps of 10-20 feet from a single system.
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I witnessed one of those huge dumps in the winter of 1970/71 in the Lake Tahoe area. First there was 12 feet in 3 days, and around 10 days after that there was 6 feet in one day. That was impressive. The snow that year rivaled the snow that impacted the Donner Party. The snow reached the top of the platform on which the statue of Donner Party members is shown. That depicts the height of the snow which they faced in that desperate winter, and it was equaled in the winter of 1970/71. Almost all of that snow fell in December of 1970 with a bit more in early January.
Mike Maguire says:
August 19, 2014 at 3:39 pm
====================================
Your words make sense to me. That is your intuitive thoughts being expressed from the library of information which you have stored within your mind. That can be a powerful tool at times.
I live in Columbus OH, and I can guarantee you that everyone in town other than Ms. Jaeger (who is kind of cute) was worried about Braxton Miller’s shoulder (it seems that he will need surgery and be out for the season) than about dried out streams, of which we don’t have any because rain has been up the past couple of years.
“garymount says:
August 19, 2014 at 2:56 pm
Mike Maguire
The problem I have with the “warmer is wetter” and my experience with warmer is drier in my region is that the north and south hemispheres go through a large swing of temperature as it cycles through the 12 month solar year without a corresponding relationship to amount of precipitation”
I had a difficult time finding any studies comparing worldwide precipitiation/ temperature as opposed to regional precipitation/temperature but here’s one.
http://onlinelibrary.wiley.com/doi/10.1029/2008JD010536/pdf
For the earth as a whole, warmer is wetter- but there’s a negative correlation on land during much of the year.- thanks, I suspect, due to Hadley circulation and to the unbalanced distribution of land between Northern and Southern hemispheres.
When considering the earth as a whole, remember that 50% of the earth’s surface is tropical or subtropical- between 30 degrees north and south.