Journal

Habitat Description

The Arctic TundraA treeless area between the icecap and the tree line of arctic regions, having a permanently frozen subsoil and supporting low-growing vegetation such as lichens, mosses, and stunted shrubs. is a very unique habitat with its own defining food web. I will be focusing on the Arctic tundra found in northern Alaska since that is where the Toolik Research Station is located. This biome has long cold dark winters and short cool summers with 24 hours of daylight. It has low precipitation and dry winds. The most unique part of the Arctic tundra biome is the permafrost or ground that is permanently frozen. Its frozen and no roots or water can get through. During the summer it starts to thaw on top and this is called an active layer. Within this layer, plant roots are now able to grow and insects can burrow into it.

Cool animation of this at USFWS http://www.fws.gov/refuge/arctic/activel.html#animation

Food Chains and Food Webs

Food chains are diagrams showing the energy transfer between different organisms in an ecosystem. Arrows point from the prey to the predator that will eat them.

Each food chain is one path that energy and nutrients may take as they move through the ecosystem. All of the interconnected and overlapping food chains in an ecosystem make up a food web.

Organisms in food webs are grouped into categories called trophic levels. Roughly speaking, these levels are divided into producers (first trophic level), consumers, and decomposers (last trophic level).

Producers

Producers make up the first trophic level. Producers, also known as autotrophs, make their own food and do not depend on any other organism for nutrition. Most autotrophs use a process called photosynthesis to create food (a nutrient called glucose) from sunlight, carbon dioxide, and water. The Arctic TundraA treeless area between the icecap and the tree line of arctic regions, having a permanently frozen subsoil and supporting low-growing vegetation such as lichens, mosses, and stunted shrubs. Food web producers include moss, sedge, grass, shrub, and lichen.

Consumers

The next trophic levels are made up of animals that eat producers. These organisms are called consumers.

Primary consumers are herbivores. Herbivores eat plants, algae, and other producers. They are at the second trophic level. The primary consumers in the Arctic TundraA treeless area between the icecap and the tree line of arctic regions, having a permanently frozen subsoil and supporting low-growing vegetation such as lichens, mosses, and stunted shrubs. TerrestrialPertaining to land. Food web are caribou, pika, Arctic hare, musk ox and insects.

Caribou Grazing
A group of five caribou, eating tundra plants. North Slope, Alaska. Photo by Regina Brinker (PolarTREC 2014), Courtesy of ARCUS

Secondary consumers eat herbivores. They are at the third trophic level. Secondary consumers in the Arctic TundraA treeless area between the icecap and the tree line of arctic regions, having a permanently frozen subsoil and supporting low-growing vegetation such as lichens, mosses, and stunted shrubs. food web include fish, and grizzly bears (I’ve been told there are no polar bears at Toolik).

Tertiary consumers eat the secondary consumers. They are at the fourth trophic level. In the Arctic TundraA treeless area between the icecap and the tree line of arctic regions, having a permanently frozen subsoil and supporting low-growing vegetation such as lichens, mosses, and stunted shrubs. Food web, Arctic foxes, owls, Arctic Terns and wolves.

There may be more levels of consumers before a chain finally reaches its top predator. Top predators, also called apex predators, eat other consumers. There could be a fourth or fifth trophic level.

Detritivores and Decomposers

Detritivores and decomposers make up the last part of food chains. Detritivores are organisms that eat nonliving plant and animal remains.

Decomposers, like fungi and bacteria, complete the food chain. Decomposers turn organic wastes, such as decaying plants, into inorganic materials, such as nutrient-rich soil. They complete the cycle of life, returning nutrients to the soil. This starts a whole new series of food chains.

Source of Food Chain/ Food Web Info: http://education.nationalgeographic.org/encyclopedia/food-web/

Comments

Wed, 02/10/2016 - 12:45

Susan Steiner

I love that animation of the active layer in the tundra soil, a great link to help my students better understand the soil processes up there! You are going to love Toolik!

Wed, 02/10/2016 - 19:42

Lisa Seff

Hi DJ! Really nice job with the food chain and web journal entry! I'll show it to my students! I also like the Nat'l Geo link, I hadn't seen it before so thank you! Looking forward to learning about the microbial habitat in the tundra! I haven't been to Toolik, but from my PolarTREC friends, it sounds like an amazing hub for Polar research! Enjoy!

Thu, 02/11/2016 - 08:04

DJ Kast

I'm so glad that you like it and that it can be useful for your students. I'm so excited to be going to Toolik.

Thu, 02/11/2016 - 08:07

DJ Kast

I'm so glad that the journal entry was useful!I am so excited to be going to Toolik!

Thu, 02/11/2016 - 11:08

Maggie Kane

Hi DJ,your journal is really thorough and interesting! I am struck by your comment about how "Most autotrophs use a process called photosynthesis to create food..." I've heard that chemosynthesis is different. Am I on the right track here? What organisms use that to eat?

Keep up the great journaling - I know I am going to learn a lot from you!

Thu, 02/11/2016 - 11:36

DJ Kast

Great Point. There are many Deep Sea environments that use chemosynthesis.
Chemosynthesis is the use of energy released by inorganic chemical reactions to produce food. Chemosynthesis is at the heart of deep-sea communities, sustaining life in absolute darkness, where sunlight does not penetrate.

All chemosynthetic organisms use the energy released by chemical reactions to make a sugar, but different species use different pathways. For example, the most extensive ecosystem based on chemosynthesis lives around undersea hot springs. At these hydrothermal vents, vent bacteria oxidize hydrogen sulfide, add carbon dioxide and oxygen, and produce sugar, sulfur, and water: CO2 + 4H2S + O2 -> CH20 + 4S + 3H2O.

Other bacteria make organic matter by reducing sulfide or oxidizing methane. Chemosynthetic bacterial communities have been found in hot springs on land and on the seafloor around hydrothermal vents, cold seeps, whale carcasses, and sunken ships.

Sourced from:

Thu, 02/11/2016 - 11:40

Stanley Skotnicki

So interesting DJ - I am looking forward to following your expedition in the Tundra at Toolik.

Thu, 02/11/2016 - 12:54

Bruce Taterka

DJ - Great journal entry! You're going to have a great time actually seeing all these organisms soon. The flowers on the tundra are amazing - I love the cottongrass. Looking forward to following your expedition!- Bruce

Thu, 02/11/2016 - 15:51

DJ Kast

status: 1Thanks!

On 2/11/16 3:38 PM, PolarTREC wrote:

Wed, 05/02/2018 - 09:24

geanna drascic

I think this is actually a pretty good resource, but it doesn't show ALL of the things that people need to know.

Wed, 05/09/2018 - 07:03

Guest

whats is a 3rd level consumer in the Tundra

Thu, 01/24/2019 - 02:30

Guest

hi love your photo