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From: Ecological Society of America: grants, jobs, news
[mailto:<a href="/cgi-bin/wa?LOGON=A3%3Dind1109E%26L%3DFWJOBS%26E%3D7bit%26P%3D377040%26B%3D--%26T%3Dtext%252Fplain%3B%2520charset%3Dus-ascii" >[log in to unmask]</a>] On Behalf Of Tamara Harms
Sent: Thursday, September 29, 2011 7:22 PM
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Subject: [ECOLOG-L] Graduate assistantships at University of
Alaska-Fairbanks

Graduate student assistantships at University of Alaska-Fairbanks

Graduate student assistantships are available in the laboratory of Dr. Jay
Jones (http://users.iab.uaf.edu/~jay_jones/) at the University of Alaska,
Fairbanks. Please contact Dr. Jones (<a href="/cgi-bin/wa?LOGON=A3%3Dind1109E%26L%3DFWJOBS%26E%3D7bit%26P%3D377040%26B%3D--%26T%3Dtext%252Fplain%3B%2520charset%3Dus-ascii" >[log in to unmask]</a>) regarding
interest in the following projects. The application deadline for the
graduate program in the Department of Biology & Wildlife
(http://www.bw.uaf.edu/graduates/index.php) is Jan 15.

1. Scale, Consumers and Lotic Ecosystem Rates (SCALER) A Ph.D. assistantship
is available to support research related to the multi-site, collaborative
SCALER project. This project focuses on issues of scaling in stream ecology
and is part of a larger collaborative effort to be conducted at sites across
North America.  Students working at the University of Alaska Fairbanks will
focus their field work in the boreal forest at the Caribou-Poker Creeks
Research Watersheds (CPCRW; located near Fairbanks), but will be involved in
cross-site synthesis. SCALER will address the following overarching
question: How can small-scale ecological experiments be applied to
understand the behavior of entire ecological systems?  The broader SCALER
project includes sites in the tropical forest, temperate deciduous forest,
prairie, and tundra biomes.  Streams in each of these five regions will be
examined at scales of centimeters to 1000's of meters in streams of varying
size.  Rates of stream metabolism (photosynthesis and
respiration) and nutrient uptake will be measured, as well as the way these
ecosystem processes respond to animal exclusions (used to mimic loss of
animal diversity in streams) in small headwater to mid-order stream reaches.
 Reach scale studies will be linked to the scale of watersheds and regions
by modeling, and verified by broader, but less intensive sampling.  

 

2. Climate-mediated coupling of hydrology and biogeochemistry in arctic
hillslopes We are seeking an M.S. student to develop a thesis related to
biogeochemistry of arctic hillslopes. The student will join a team that is
investigating coupled hydrology and biogeochemistry of arctic hillslopes, in
effort to understand how climate-induced changes in water and nutrient
cycles on land are propagated to stream networks.  Observed increases in
fluxes of water, nitrogen, and phosphorus from river networks to the Arctic
Ocean may be caused by release of nutrients from thawing permafrost,
changing precipitation patterns, increased rates of biogeochemical
reactions, or expanded storage capacity in thawed soils.  However, the
flowpaths connecting terrestrial ecosystems to stream networks remain poorly
understood.  We will focus on transport and reaction of water and solutes
within water tracks, which are linear regions of surface and subsurface flow
that connect hillslopes to streams and account for up to 35% of watershed
area in arctic tundra.  The research team includes watershed ecologists
(Tamara Harms, Jay Jones) at the University of Alaska-Fairbanks, and
hydrologists (Sarah Godsey, Mike Gooseff) at Idaho State University and
Pennsylvania State University.  Field work for the project will be based at
the Toolik Field Station, and will begin 5/12.

 
3. Watershed, Permafrost and Climate Change Controls on Stream Ecosystems
The third project investigates how streams are linked to their catchments,
and focuses on how permafrost influences groundwater inputs of nutrients and
organic matter to streams.  The boreal forest in interior Alaska is
underlain with discontinuous permafrost, which has a major affect on
watershed hydrology.  Where permafrost is present, groundwater flowpaths
through catchments are largely restricted to soils, whereas in the absence
of permafrost water can infiltrate into deeper bedrock regions of
watersheds.  In addition to affecting hydrology, permafrost stores soil
organic matter that will potentially be released to streams and the
atmosphere with climatic warming and permafrost thaw.  In particular,
groundwater inputs of nutrients and organic matter may shift with changing
climate and the extent of permafrost.  An interesting sidelight of this
research is the role of forest fires and their influences on permafrost. 
Fire alters the albedo of soil and, as a consequence, can lead to thawing of
permafrost.  Fire frequency has been increasing in interior Alaska, which
has important implications for permafrost and watershed hydrology.  This
work is funded through the Bonanza Creek Long Term Ecological Program
(http://www.lter.uaf.edu/) and is being conducted in the Caribou-Poker
Creeks Research Watersheds (CPCRW; located near Fairbanks).