Types of Sensitive Ecosystems

Shortcuts:

Terresterial Ecosystems:

Old Forest | Woodland | Freshwater | Riparian | Wetland | Herbaceous | Cliff | Mature Forest

Nearshore Ecosystems:

Beaches and Bluffs | Forage Fish Habitat | Kelp and Eelgrass Beds | Marine Riparian Vegetation | Juvenile Salmon Nearshore Habitat | Rockfish Habitat

 

Terrestrial Ecosystems

 

Old Forest Ecosystems

Why are Old Forest Ecosystems important?
Old forest ecosystems are vital in the world's fight to combat air pollution and climate change: absorbing carbon dioxide, releasing oxygen and cleaning the air. Current research shows that coastal forests in British Columbia store between 600 and 1,300 tonnes of carbon per hectare, with more captured each year. Old forest ecosystems represent an important and dwindling piece of our natural and cultural heritage. In addition to supporting high levels of biodiversity and vital habitat, old forest ecosystems provide important economic benefits through recreation and the harvesting of non-timber forest products such as wild mushrooms and salal.

What are Old Forest Ecosystems? Old forest ecosystems are conifer-dominated tree stands that are generally older than 250 years. Old forests contain large mature trees, standing dead trees and fallen logs and support a large number of plant and animal species. Also important are mature forest ecosystem (80-250 years) and young forest ecosystems (40-80 years).

Where are Old Forest Ecosystems located? Old forest ecosystems are not specific to terrain or elevation and are found in various environments throughout the islands. Existing in areas with historically little to no human disturbance, old forests are scarce in the Islands Trust Area - less than 1% remains. Today, small patches of old forest ecosystems are scattered across the islands, fragmented by roads, logging and development.

How can we protect Old Forest Ecosystems? Many species dependent on old forest ecosystems require large, undisturbed areas for survival.

  • Maintain the largest possible patches of old forest to minimize further fragmentation
  • Allow natural succession, natural disturbance and plant decay to occur
  • Restrict access by vehicles and livestock to prevent vegetation damage and soil compaction
  • Maintain a vegetated buffer by limiting adjacent development

  

Woodland Ecosystems

Why are Woodland Ecosystems important?
Woodland ecosystems provide habitat to a wide variety of plants, insects, reptiles and birds. Garry oak woodlands, for example, support the highest plant species diversity of any terrestrial ecosystem in British Columbia. Woodland ecosystems commonly occur with herbaceous and cliff ecosystems, thus enriching the diversity of an entire area and increasing connectivity between these other sensitive ecosystems. Ecologists hypothesize that woodland ecosystems are likely to survive as our climate changes, due to this ecosystem's ability to exist in dry conditions. Retaining woodlands is important for the survival of many species during this climatic transition period.

What are Woodland Ecosystems? Woodland ecosystems are dry and open forests dominated by a mix of deciduous and coniferous tree species. Arbutus, Douglas-fir and Garry oak dominated woodlands are among the most sensitive and biologically diverse woodland ecosystems in the Trust Area.

Where are Woodland Ecosystems located? Woodland ecosystems are generally restricted to south-facing slopes and ridges with shallow soils and bedrock outcroppings. Woodland ecosystems exist in areas with dry conditions that prevent the development of dense forests.

How can we protect Woodland Ecosystems? Woodland ecosystems are fragmented and rare - nationally, provincially and regionally. Because they support a high number of at-risk species, the loss of each woodland ecosystem has devastating effects on the Province's biodiversity and may affect the ability of our area to adapt to climate change.

  • Limit access and avoid development to prevent vegetation damage
  • Actively control invasive species to reduce competition with rare native species
  • Prevent livestock grazing to avoid soil compaction and erosion
  • Consider re-introducing managed fire to the ecosystem to reduce non-native species

 

Freshwater Ecosystems

Why are Freshwater Ecosystems important?
Freshwater ecosystems serve a vital role in the lives of humans and animals as a source of drinking water. They also provide breeding habitat for insects, amphibians, fish, and invertebrates. These ecosystems serve as a rich source of nutrients for aquatic and terrestrial inhabitants alike.

What are Freshwater Ecosystems? Freshwater ecosystems include lakes and ponds. They generally have areas with little or no floating vegetation and are deeper than two metres. Freshwater ecosystems form complex relationships with the riparian ecosystems found along their shorelines.

Where are Freshwater Ecosystems located? Freshwater ecosystems are not specific to terrain or elevation and are found in various environments throughout the Islands Trust Area. The water levels of freshwater ecosystems can be influenced by groundwater, precipitation, stream flow and evaporation.

How can we protect Freshwater Ecosystems? By protecting the quality and quantity of water feeding into freshwater ecosystems, we can protect drinking water and habitat for humans and other species.

  • Restrict nearby pesticide, fertilizer or manure use to decrease algal blooms
  • Create and retain a vegetated buffer around water bodies to prevent erosion and filter run-off
  • Restrict recreational, livestock and pet access to limit water contamination and habitat destruction
  • Limit human impacts on the watersheds feeding freshwater ecosystems

 

Riparian Ecosystems

Why are Riparian Ecosystems important?
Despite their small size, riparian ecosystems support an exceptionally high number of species because they include three critical habitat components needed by wildlife - water, shelter and food. Riparian ecosystems form valuable corridors for wildlife and humans alike, with many trail systems following these areas of remnant vegetation. Riparian ecosystems serve as natural water filtration systems and help regulate the flow of water - a function vital to the islands' sometimes dry climate.

What are Riparian Ecosystems? Riparian ecosystems occur along the edges of water bodies. The moist soils found in riparian ecosystems support plant communities distinct from those of surrounding upland areas. Riparian ecosystems vary in size, terrain and vegetation, ranging from gravel bars to old growth forest ravines. Due to seasonal changes in water levels, riparian ecosystems are highly dynamic.

Where are Riparian Ecosystems located? Riparian ecosystems occur along the margins of streams, rivers, ponds, marshes and lakes. Though large water bodies have extensive riparian ecosystems, the relatively dry climate of the Gulf Islands has resulted in smaller stream systems with narrower riparian ecosystems.

How can we protect Riparian Ecosystems? Protecting riparian ecosystems from increased run-off, sediment loading and contaminants prevents erosion, flash floods and maintains habitat and the quality of adjoining freshwater ecosystems.

  • Create and maintain a vegetated buffer to protect against outside disturbance
  • Limit human and domestic animal access to reduce damage to riparian soils and vegetation
  • Retain features such as snags, logs and downed trees
  • Allow natural disturbances to occur, such as flooding and channel changes, and restrict human interferences such as hard bank reinforcements and infilling
  • Restrict pesticide, fertilizer or other chemical use nearby

 

Wetland Ecosystems

Why are Wetland Ecosystems important?
There are very few wetlands in the islands and they are precious. They serve as water filtration systems, removing toxins and sediments from run-off. They capture and store water, aiding in ground water recharge and flood control. Wetland ecosystems provide key breeding and feeding areas for birds, insects and amphibians and exhibit high rates of biodiversity. Seasonally flooded agricultural fields are vital additions to dwindling natural wetland and riparian habitats and play a critical role as wintering stopover areas for migratory birds.

What are Wetland Ecosystems? Wetland ecosystems have moisture-dependent plants that thrive in an environment where water remains at or above the surface of the soil during most of the year. The type of wetland can vary between bog, fen, marsh, swamp and estuarine wetland (where fresh and salt water mix) and can be flooded year-round or seasonally. Wetlands rely on a delicate balance between water and plant life.

Where are Wetland Ecosystems located? Wetland ecosystems occur in areas of flooding, fluctuating water tables, poor drainage or tidal influences, including agricultural lands that flood seasonally.

How can we protect Wetland Ecosystems? Healthy wetlands provide clean, filtered water, flood control and wildlife habitat.

  • Avoid infilling, draining or ditching wetlands
  • Create and retain a vegetated buffer around wetlands and associated riparian ecosystems to protect hydrology systems
  • Prevent disturbance of nesting or breeding areas by humans, livestock or pets, especially between March and August
  • Restrict pesticide, fertilizer or other chemical use nearby

 

Herbaceous Ecosystems

Where are Herbaceous Ecosystems located?
Herbaceous ecosystems are found on bedrock outcroppings, hilltops, dunes and spits and in large openings within forested areas. These fragile ecosystems are found in small patches throughout the Islands Trust Area.

Why are Herbaceous Ecosystems important?
Due to their occurrence on highly exposed areas, herbaceous ecosystems provide extremely specialized micro-habitats for many species of rare butterflies, wildflowers and lichens. The lifecycles of certain rare species depend entirely on the specific conditions found within extremely small locations (some within an area of a few square centimeters) of herbaceous ecosystems.

What are Herbaceous Ecosystems? Herbaceous ecosystems are natural grasslands, open meadows and sparsely vegetated hilltops. The shallow soils, characteristic of herbaceous ecosystems, support low-growing vegetation, such as grasses, forbs (low, broad-leaved plants) and colourful arrays of wildflowers, mosses and ancient lichens. Few trees and shrubs survive on these sites due to the shallow, fast-drying nature of the exposed soils.

How can we protect Herbaceous Ecosystems? The thin soils of herbaceous ecosystems are especially vulnerable to disturbance. Once plants are removed, the thin soil cover is stripped by rain and wind making it extremely hard for plants to re-establish on exposed bed-rock.

  • Limit access and avoid any type of development to prevent soil and vegetation damage
  • Create a vegetation buffer using native species to slow invasion by non-native species
  • Actively control invasive species to reduce competition with rare native species
  • Prevent disturbance of nesting or breeding areas by humans, livestock or pets, especially between March and August
  • Allow natural seasonal moisture variations to continue by restricting human inputs such as septic discharge and garden watering

 

Cliff Ecosystems

Why are Cliff Ecosystems important?
Cliff ledges and fissures offer isolated habitat protected from predators, making cliffs choice nesting sites for a variety of birds. Crevices are used by roosting bats, while deeper crevices serve as shelter and overwintering areas for snakes and lizards. Cliffs contribute to the scenic beauty of the Islands Trust Area, attracting visitors and boaters who may contribute to local economies. Cliffs also offer spectacular waterfront views, creating recreational opportunities on land, often leading to their degradation by development, trails and introduced species.

What are Cliff Ecosystems? Cliff ecosystems are steep slopes, often with exposed bedrock. Very little soil accumulates in these ecosystems and only exceptionally hardy trees and plants maintain a precarious grip.

Where are Cliff Ecosystems located? Cliff ecosystems are regionally rare, making up less than 0.1% of the landscape in the Islands Trust Area. Cliff ecosystems occur both inland and along coastal areas. Inland cliffs occur where mass erosion events have taken place, often where soil drainage is rapid. Coastal cliffs occur near shorelines with powerful wind, heat and wave influences.

How can we protect Cliff Ecosystems? Cliff ecosystems and the rare habitat they support need protection from soil disturbance and erosion.

  • Prevent disturbance of nesting or breeding areas - especially from March to August. Loud noises or venturing too close to nesting locations can cause birds to abandon eggs
  • Control invasive species such as Scotch broom, while limiting disturbance to soil by leaving root systems
  • Create a barrier or vegetated buffer around cliffs to limit human and domestic animal access

 

Mature Forest Ecosystems

Why are Mature Forest Ecosystems important?
The biodiversity values of the mature forest ecosystem type increases with age, meaning that a forest will be able to sustain a greater variety and number of plants and animals as time progresses. In addition, mature forest stands serve as buffers and corridors between different sensitive ecosystems, protect micro-habitats, and allow forest dwelling species to move freely and safely between the various habitats. They also play an important role in the capture and storage of carbon dioxide and the fight against climate change.

What are Mature Forest Ecosystems? Mature forest ecosystems are conifer-dominated dry to moist forest stands, usually 80 to 250 years old. Some stands may include deciduous tree species making up 25% of the canopy cover.

Where are Mature Forest Ecosystems located? Mature forest ecosystems are often found in areas surrounding or bordering other sensitive ecosystems such as old forests and wetlands. Mature forests serve as buffers for these sensitive ecosystems while providing habitat to a variety of plant and animal species.

How can we protect Mature Forest Ecosystems? If conserved, mature forest ecosystems have the potential to become the old forest ecosystems of the future.

  • Maintain the largest possible patches of mature forest
  • Allow succession, natural disturbance and decay to occur
  • Restrict access by vehicles and livestock
  • Control invasive species

 

 Nearshore Ecosystems

 

Beaches and bluffs

Many species of birds, plants and invertebrates live, breed and feed on beaches and bluffs.  With such a small niche in the environment, these species, especially birds are sensitive to even the slightest disturbance.

Bluffs and beaches constantly evolve and change as storms and tides naturally erode and deposit sediment along shorelines.  Human structures that alter the shoreline in an attempt to stop erosion can have significant impacts not only where they are constructed, but also in other shoreline areas that rely on sediment deposits. 

 

Forage Fish Habitat

Forage fish are schooling fish that provide critical food for other species including salmon and other larger fish, birds and marine mammals.  Typical forage fish include Pacific herring, surf smelt and Pacific sand lance.  Forage fish depend on nearshore areas for food and shelter.  Some of these species also depend on the nearshore for spawning habitat.  Spawning habitat is particularly vulnerable to shoreline development and contamination.

Learn more about our Forage Fish Habitat mapping project.

 

Kelp and Eelgrass Beds

Kelp and eelgrass are marine plants.  Kelp and eelgrass beds provide shelter and feeding areas for marine life.  They remove and store carbon from the ocean.  They also stabilize marine substrates with their roots, buffering shorelines from waves and current action. 

Kelp and eelgrass beds are vulnerable to sediment from stormwater runoff and upland clearing, dredging, alteration to nutrient levels (e.g. leaching septic fields), shoreline structures that block light and changes in water temperature.

Learn more about our Eelgrass Habitat mapping project.

 

Marine Riparian Vegetation

Marine riparian vegetation is terrestrial-based plants at or near the shoreline.  These plants stabilize shorelines and filter terrestrial runoff.  They provide organic matter, nutrients and shade, which regulate temperature.  An estuary is an example of an area rich in marine riparian vegetation.  Marine riparian areas are easily destroyed when shorelines are developed, leading to detrimental impacts on marine habitats.

 

Juvenile Salmon Nearshore Habitat

Juvenile salmon depend on nearshore areas for food, migration corridors and protection from predators.  Nearshore areas support juvenile salmon as they make the change between life in freshwater and life in salt water.  Changes to wave action along the shoreline (e.g. from seawalls, docks, removal of shoreline vegetation) can harm juvenile salmon.  Pollutants, sediment and nutrients from shoreline developments also harm juvenile salmon during this vulnerable stage of their lifecycle.

 

Rockfish Habitat

Rockfish LG

Sebastidae are a family of marine fish commonly referred to as Rockfish. Five species of Rockfish live in nearshore habitats in the Salish Sea: Quillback, Copper, China, Tiger and Yelloweye. 

Recreational fishing has put pressure on our local Rockfish populations, leading to the Quillback being listed as Threatened by COSEWIC and the Yelloweye listed as Special Concern by COSEWIC and the Species at Risk Act.

Rockfish Conservation Areas have been established to help populations recover.  Learn more and see maps of Rockfish Conservation Areas in the Rockfish News, a publication of the Valdes Island Conservancy and the Galiano Conservancy Association.

Page last updated: 10/02/16
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