Life at Cape Bounty

Guest post by M.Sc. student Amanda Schevers

The best way to carry the stand for the precipitation collectors. This is at the top of the West River catchment, I’m just about to install the final collector. 

I never thought I would ever consider battling snowstorms, bone-chilling winds, and sub-zero temperatures for an entire summer to be so rewarding and fun, yet somehow I ended up at Cape Bounty. Despite hearing stories from past students, seeing pictures, and reading more papers than I can remember, I still managed to be completely shocked when I hopped off the plane onto the lake ice. No pictures will ever do this place justice.

            But why am I here, in an uninhabited island in the middle of the High Arctic? Sometimes, when I get caught up in the small details of things, stepping back and re-reading my research proposal helps remind me what I am actually trying to accomplish while I am here (which, by the way is for a total of 64 days). We’ve heard all about climate change and how much it will change the world we live in, but how exactly is it going to change the surface water we, and countless aquatic ecosystems rely on?

To help answer this question, I’m going to be monitoring two rivers and their respective watersheds. This may sound easy, but it means I’m going to end up hiking 15-20 km carrying 10-12 litres of water every single day. Luckily I have PhD candidate Casey to help me out. We installed a network of monitoring stations, wells to collect subsurface water, and four precipitation collectors across the landscape. My first week at camp was spent out on the tundra, getting to know the land, the equipment, and getting a taste of the wide range of research that occurs at Cape Bounty.

            One of the best parts of hiking such a large area every day is the chance to see so many incredible things. Hiking up through snow lined channels, stopping to admire the approaching wolves, caribou, and muskox, and checking out all the bones scattered across the tundra are some of my favourites.

Before installing stations, we decided to walk up the East river channel. Water creates some pretty cool features. 

            Life at camp hasn’t been too shabby either. We’ve managed to bake a giant cookie, brownie, and apple crisp all in a frying pan. After a long, cold day in the field and in the lab a relaxing evening with dessert and camp stories are the perfect way to end the day. 

Probing the depths of the lakes

One of the interesting things we are doing at Cape Bounty is trying to understand the contributions of groundwater to the lakes.  This is something that is very subtle and hard to measure, so we had a number of approaches to deal with this challenge in 2016.

Maddie Harasyn sampled 21 different locations in the two main lakes during the spring and summer.  We located these sites from the detailed bathymetric mapping that Alexandre Normandeau completed in 2015.  This allowed us to find the best locations to test for the presence of groundwater seeping in over the winter.

2015 Bathymetry from sidescan sonar (from Normandeau et al. 2016).  Purple and blue colours represent the deepest areas of the lakes.

Measuring the water at the bottom of the lake is a real challenge.  We use instruments that are lowered on a rope down through the lake from the ice cover.  Imagine putting something the value of a car on the end of a $5 rope and you get the idea!  We slowly lower the instrument as it collects data at 3-second intervals.  That part is very standard.

The problem is that we want to avoid touching the bottom sediment because this will disturb the last measurements and contaminant the water samples with sediment.  In 2016, we avoided this by using a live video feed on the instrument.  So as one person lowered the instrument, another carefully watched the screen.  To know when we were near the bottom, a flashlight was directed downwards.  As it approached the bottom, the beam of light came into focus and then became very small, alerting us to stop in time.

The CTD-video-light-water sampler unit.  All designed to go through a hole in the ice.

In practice, this system worked quite well.  We were able to use a fish finder to know when we were approaching the bottom (the instrument appears as a big fish) and to turn on the video system.

We are working on the results now, but this effort appears to have been worth the trouble.  It is all part of the challenges of working in the Arctic and doing research.

Tundra Times

Posted by CBAWO M.Sc. student Matt Gillman

Teamwork is a large part of the scientific investigations that take place at the Cape Bounty Arctic Watershed Observatory (CBAWO) here on Melville Island, Nunavut. As a result, a given day may entail assisting in running an ice auger through 2 metres of lake ice so that a sediment core may be retrieved for a limnological view into paleoclimatology; or possibly hiking over tundra to collect soil and/or surface water for hydrological- or biogeochemical-based projects; or maybe collecting atmospheric gas samples with the purpose of investigating greenhouse gas emissions and drawdown due to vegetation; or grabbing stream water samples for sedimentological work; the list goes on.

My work here is focused on improving our understanding of how subsurface hydrology and hydraulics determine the delivery of water and nutrients to High Arctic Rivers. I am particularly interested in late season delivery of subsurface water and nitrogen, both of which act as controls on water quality. From this work I hope to provide information which may be applied to resource management decisions concerned with High Arctic water security, as well as future scientific endeavors aimed at building on our understanding of northern hydrology.

Now that the river is thawed and subsurface flow of water is becoming more abundant, my work in the river system consumes most of my days. Such days involve collecting solute and temperature data along the length of the river to look at the location of subsurface inflows, collecting water samples to assess the chemical composition of waters in soils adjacent to the channel, and measuring water table levels in sampling wells to map out the hydraulic conditions near the river.

Research aside, the landscape and wildlife at CBAWO are amazing. A photo can rarely give justice to the rolling hills and bedrock outcrops of the tundra. Regardless of how rough one’s day is going, it can normally be set right by a brief look around as reminder of setting. Elusive as they may be at times, the wolves, caribou, muskoxen, and arctic foxes are always a neat surprise to come across. 

A muskox enjoying some beautiful weather on the western bank of the Boundary River, Melville Island, NU.

Having had rare encounters, the animals on Melville Island have little fear of humans and are quite curious. The muskox seen in the photo here was content to watch us work from the opposite bank of Boundary River, a river which drains a lake on the boundary of Nunavut and The Northwest Territories.

As a whole, I am thoroughly enjoying the beginning of my first full (I spent a couple of weeks here last summer) field season conducting Arctic-based research. I am lost for words to describe how neat it is to be here.