Forest Ecology & Urban Ecology Lecture Notes Fall 2024 PDF

Summary

These lecture notes cover forest ecology and urban ecology, including topics like ecology definitions, biomes, and ecological factors. The document also discusses succession, disturbance, and ecosystem services, offering a broad overview of these key ecological concepts.

Full Transcript

Forest Ecology

Outline:

Ecology definitions

Biomes review

Eastern deciduous forest (a temperate forest)

Forest ecology concepts:

Biotic and abiotic factors, disturbance and succession

Ecosystem services

Boreal forest

Trees in cities

How do trees clean our air

Tree canopy disparity

How to identify plants and birds
Ecology = study of the relationship between living things and their environment

Ecological factors and plant distribution:

vegetation is not randomly distributed around the globe

distribution largely depends on climate

within a biome, the species are distributed according to environmental gradients of light,
temperature, moisture, soil nutrients, fire, competition, herbivory, human interference, etc.

………and biotic interactions (mutualisms, competition, parasitism, etc)
Biomes and airmasses
Geologic map shows bedrock types in the region. Bedrock influences soil characteristics.
Ice sheet map shows the parts of the United States that were covered in ice during the most recent
glaciation.
Biomes in the region
Eastern deciduous forest subregions
Major tree taxa in the e. deciduous forest:

Quercus oak

Acer maple

Betula birch

Carya hickory

Fraxinus ash

Tilia basswood

Liriodendron tulip tree

Physiognomy (layering):

Canopy: oaks, maples, etc.

Understory: witch hazel, dogwood, hornbeam

Shrub: mountain laurel, blueberry, huckleberry

Herb: wildflowers, ferns, tree saplings

Ground: mosses, fungi, leaf litter
Ecological factors of the environment:

A mosaic of interdependent and interacting physical and biological factors that determines the
conditions of the habitat.

Biotic ecological factors:
(interactions between members of a community)

competition organisms using same resources -/-

commensalism one benefits other remains neutral +/0

mutualism both benefit +/+ (example: Mycorrhizas are mutualistic associations between soil
fungi and plant roots)

parasitism/predation one benefits one harmed +/-

Important mutualism in forests: mycorrhiza

mutualistic associations between soil fungi and plant roots

plant receives mineral nutrients while the fungus obtains photosynthetically derived carbon
compounds

Abiotic ecological factors:
(physical characteristics of the environment that determine plant distribution)

Solar radiation

temperature

fire

soil

water
Fire as an ecological factor in the environment:

Fire has influenced the evolution of various ecosystems like grasslands and pine barrens

lightning is the major cause of natural fires (estimated to be three billion strikes of lightening per year)
other causes are sparks, volcanic activity, spontaneous combustion, human activity

intensity, frequency, and behavior of fire is determined by: climate, fuel amount, fuel moisture, soil
moisture

Disturbance: a discrete event in time that disrupts ecosystems, communities or populations:

Disturbance causes changes in substrates and resource availability

Disturbance creates opportunities for new individuals to become established

Natural disturbance is a necessary and beneficial ecosystem process

The best way to preserve biodiversity is to protect the entire ecosystem, including its natural
disturbance regime

Agents of disturbance:

Wind: can range from mild to catastrophic: shapes canopies, affects wood growth, uproots trees,
massive blow-downs

moving water: storms can scour stream beds, cut-away banks, move and deposit sediment

drought: prolonged and regularly occurring drought can determine species composition; temporary
drought can alter biological events, e.g., flowering time

fire: both a destroyer/regenerator of communities

animals: browsers, dam builders, defoliators, etc.

humans: logging, cultivation, urbanization, pollution, surface mining, livestock grazing...
Ecological succession:

The predictable recovery process after a disturbance that leads to the restoration of the biotic and
abiotic processes of the area. This process is most easily visualized by examining the re-vegetation
of the area.

The replacement of one community by another over time; directional and predictable.
Community attributes change as succession proceeds:

Early:

soil nutrients low

light abundant

substrate dry

opportunistic species (fast growth, short-lived, large number of wind dispersed seeds,)

veg is small, low, and non-woody

biomass low

Later:

increased soil nutrients

shade increases

moisture increases

species diversity increases

veg is longer-lived, larger, woody, slow growing, few seeds, heavy seeds, animal-dispersed

biomass increases
As plant communities change, so do the associated animal communities:

WHY? The physical structure of the plant communities is related to selection of roosting and nesting
sites. Food availability and type change (seeds versus fruits).
climate change is a disturbance

animals and plants move (if possible) to track preferred resources

animal and plant migration is a response

Animals have Icarus tags which are sensors that record GPS data and other information on
conditions experienced by an animal, such as temperature. Data from the sensors are collected by
antennae in space and then transmitted to computers on the ground. This creates a living picture of
environmental change on the planet by documenting countless individual movement decisions as
animals seek out their preferred conditions, sensing the quality and health of ecosystems in real time.
This allows scientists to identify areas essential for survival of the animals and identify areas where
biodiversity may be threatened by human encroachment or poaching when anticipated migration
routes are blocked.

animal migration maps
https://www.movebank.org/cms/movebank-main

Ecosystem services:

Recall ecosystem services: what is the definition?

Can you recall specifically the ecosystem services provided by trees?

https://www.treepeople.org/22-benefits-of-
trees/#:~:text=Trees%20absorb%20CO2%2C%20removing%20and,oxygen%20back%20into%20the
%20air.&text=Trees%20absorb%20odors%20and%20pollutant,on%20their%20leaves%20and%20ba
rk

Forest ecosystem processes:

Photosynthesis, Respiration and Evapotranspiration facilitate

Ecosystem services:

Purification of air and water

Regulation of atmospheric composition

Regulation of climate

Regulation of hydrological cycle
Boreal forest carbon is stored in both trees and in underlying peatlands and permafrost soils.

Boreal forests store almost twice as much carbon per area as tropical forests

Carbon flux in tropical forests is balanced between plant growth and decay, whereas cool
temperatures of boreal ecosystems prevent the breakdown of dead biomass, leading to large
accumulations of carbon over thousands of years

Forests and trees make vital contributions both to people and the planet:

bolstering livelihoods

providing clean air and water

conserving biodiversity

responding to climate change

providing food, medicine and fuel

protecting soils and water

housing biodiversity

Water cycle

FAO.org (UN)
Comparisons between deciduous forest and boreal forest

Eastern deciduous forest Boreal forest

warm summers (>100 FFD), cold winters short summers (50-100 FFD), long severe
winters

precipitation adequate to support tree growth precipitation adequate to support tree growth

leaves abciss in autumn to avoid moisture loss dominated by evergreen

complex layered physiognomy not complex

rich soils wet acidic soils, permafrost

Edible leaves! Leaves not that edible

local variation in tree species related to

elevation, water availability, soils, microclimate, fire, etc.
5 valuable ecosystem services provided by the NA Boreal Forest:

The North American Boreal is the largest intact forest left on Earth

North America’s bird nursery 300+ species (billions of birds)

Other Wildlife: safe haven for many of North America's most iconic large mammals:

wolf, moose, caribou grizzly, black, and polar bears

Climate: The boreal forest plays an enormous role in slowing the effects of climate change. It stores
almost twice as much carbon as tropical forests

Water: world's largest source of unfrozen fresh water on Earth

Current threats to NA Boreal Forest

Logging
Mining
Oil and Gas
Hydro
Climate Change

URBAN ECOLOGY

urban areas (like everywhere else) are social-ecological systems (SES) that include
1 social capital (networks, institutions, norms)
2 built capital
3 natural capital

environmental challenges in cities
heat stress
pollution
flooding
disease outbreaks
food supply shocks
etc

can green infrastructure help mitigate these challenges for people living in cities and create
resiliency?

Resilience = capacity to sustain functioning and well-being in the face of disturbance
https://esajournals.onlinelibrary.wiley.com/doi/epdf/10.1002/fee.2446
forests and cities

Let’s think about trees in cities.

How do trees clean our air?

https://edu.rsc.org/feature/how-do-trees-clean-our-air/4010864.article
tree ecosystem services for urban areas and in general

1. trees sequester carbon by “inhaling” the CO2 needed for
photosynthesis

2. trees play an important role in removing air pollutants such as

nitrogen dioxide (NO2)

ozone (O3)

trees “inhale” nitrogen dioxide (NO2) and ozone (O3) gases
through the same pores (stomata) in the tree leaves
that trees used to inhale CO2

3. trees play an important role in dispersing and trapping air pollutants such as particulate matter
(PM)

PM = particulate matter made from a mixture of different chemicals and soot that clog up the air,
causing heart and lung disease. PM can be solid or liquid and can come from car engines, building
sites, fires and a whole range of other sources

two main types: PM10 = particles smaller than 10 5 μm and PM2.5 = particles smaller than 2.5
μm

trees act as physical barriers that block the pollutants from reaching people: in the case of PM, trees
either disperse it like other pollutants, or they act as a surface for the particles to deposit on -- it
sticks to the leaves and bark

4. trees provide an aesthetic that is well known to benefit mental health
5. trees in many situations reduce surface flooding by capturing water in rainstorms
6. provide much-needed shade in the summer
7. provide evaporative cooling and so serves as air conditioning

ref: https://edu.rsc.org/feature/how-do-trees-clean-our-air/4010864.article
Tree canopy disparity
(the lack of trees)
is one of the many
environmental injustices.
Fig cap for image below:

Residential segregation and systemic racism have substantial impacts on ecological and evolutionary
dynamics in cities.

Government-sponsored policies stratify neighborhoods on the basis of race and class (e.g., through
“redlining” in the United States, represented here by the red circle), which results in restricted access
to social services and environmental amenities for racial and/or ethnic minorities and low-income
communities (red arrows).

Habitat quantity and quality tend to be greater in wealthier and predominantly white neighborhoods
(green arrows), which leads to variations in ecological and evolutionary processes, underscoring the
influence of systemic racism and inequality in driving urban landscape characteristics.
https://www.science.org/doi/pdf/10.1126/science.aay4497
Urban Ecology challenges

more pollution
more disturbance
more invasions
warmer and drier
less connectivity

NY CITY sustainable forest initiatives
http://www.nycgovparks.org/trees

street trees are living breathing parts of our communities: shade, wind break, provide fresh air

MillionTreesNYC: to plant and care for one million new trees across the City’s five boroughs
over the next decade

Greenstreets: storm water capture: asphalt is converted to bioretention planting beds
(disconnects impervious surfaces from the CSO)
http://www.nycgovparks.org/sub_your_park/trees_greenstreets/images/NYC_Greenstreets-
Green_Infrastructure_for_Stormwater_Management.pdf

Greenroofs:

http://www.nycgovparks.org/greening/sustainable-parks/green-roofs/conditions
Tips for identifying needle-leaved trees
Tips for identifying broadleaf trees:
Points to consider when identifying birds:
Size & Shape
Color Pattern
Behavior
Habitat
Field Marks
Songs & Calls

Size and shape:

Color and pattern:
Behavior:

Habitat: