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Those scented candles you love are not healthy
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World Environment Day: It’s time to ...
World Environment Day: It’s time to #BeatPlasticPollution
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How the Urban Forest Benefits Our Health

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Speaker: Tooba Shakeel (LEAF)Written by: Sheena Jain & Esha Jain

Taking a stroll at the park, gardening in our backyards and cruising down the road, we have all done at least one of these things at some point in our lives but what do all of these activities have in common? In all of these scenarios you will see trees and tree-related plants like wildflower and shrubs, each of which encompasses the “urban forest. In short, the urban forest is a collection of trees that grows within a city, town or suburb. The urban forest is so important because it combats climate change and provides environmental, health, community as well as ecological benefits, to name a few.

The urban forest decreases air temperatures by providing shade and allowing water to evaporate from tree leaves. This in turn reduces household energy consumption for cooling from 10-50%. Additionally they lower the urban heat island effect, which is a phenomenon in which temperatures in urbanized areas are significantly warmer compared to surrounding rural areas due to human activities. Urban trees also protect and improve the quality of air, water and soil. Air quality is recuperated by the tree’s ability to trap pollution particles that cause breathing problems. In addition to providing oxygen they absorb and store carbon dioxide, removing it from the air. This also helps achieve carbon mitigation. Urban trees have been found to contain approximately four times more carbon than trees in forests. Their shade also helps decrease ozone emission released from cars. Trees improve water quality and intercepts rainfall, resulting in reduced storm water runoff, thereby preventing high amounts of stress on the grey infrastructure. They also store water and release it slowly in order to avoid the development of floods. Furthermore urban forests remediate contaminated soil and decrease erosion.

   Urban trees have been shown to reduce the billions of dollars spent on healthcare costs each year. This is achieved by improving physical and mental health. Studies have demonstrated that individuals are more likely to spend time outdoors being more social and active when trees are around. The view of trees from hospitals is also likely to decrease recovery time and hospital stays. It has also been seen to improve attention at school and work due to people feeling more satisfied in their environment. Additionally forest bathing therapy has been proven to provide calming neuropsychological effects within the nervous system. Urban trees have also been shown to have positive effects on hormone levels, and decrease stress.  Other health benefits of the urban forest include providing UV protection and decreasing asthma. Their ability to reduce noise pollution by acting as sound barriers, not only provides health benefits, by preventing hearing loss, but also provides community benefits, by creating a more pleasant atmosphere in which to live.

 Neighbourhoods that contain more trees and green space have an increased sense of connectivity and community. Urban trees can increase residential property values by up to 30% and business traffic in commercial areas as they provide a high aesthetic value. There has also been a correlation between decreased crime, graffiti and vandalism seen in these communities. They also improve road safety in these areas by calming traffic and by decreasing road rage, accidents as well as road maintenance in these communities. Not only is the urban forest beneficial to the lives of humans but also to wildlife.

Toronto urban forests provide the equivalence of more than $28.2 million in ecological services per year. This is achieved because they restore ecosystems by providing habitat and a source of food for urban wildlife.  They also act as an ideal location for migrating birds and butterflies, in addition to supporting pollinator biodiversity.

            Although urban forests are so valuable to us environmentally, physically, mentally, cognitively, regionally and ecologically, they are facing a large amount of stressors in Toronto. There is less area for tree’s to grow both under and over ground, due to low soil volumes and crowded areas. Improper care and watering has led to poor quality soil which lacks adequate amounts of nutrients for trees and plants to extract. Invading pests like the emerald ash borer are also responsible for creating less ideal conditions for urban forests in Toronto.

            Since it would cost Toronto around $7 billion to replace all of their trees, the best way to improve the quality of urban forests other measures need to be taken. 60% of trees are located on private property where there may be a lack of control, therefore these individuals should be educated about ways to establish and maintain suitable growing conditions. These include planting more trees of diverse species and watering tree roots 2-3 times per week, with a slow trickle water flow. Additionally trees should be mulched in a doughnut shaped ring to prevent erosion caused by direct contact between the mulch and the tree base. Mulch trees replenish the nutrients in soil and should be soaked for 10-15 minutes. Newly planted trees are especially benefitted by these practises. Furthermore, it is important to protect the soil and remember that trees have roots, which grow outward instead of downward. These roots should be protected 2-4 inches below the soil.

Discussion questions:

1)   What is the connection between urban forests and reducing ADHD symptoms?

A study examining the relationship between children with ADHD and the urban forest was conducted by Frances Kuo and Andrea Faber Taylor. Both were specialists in psychology and environmental science at the University of Illinois. Their data showed that children with access to green spaces for leisure and activity demonstrated milder ADHD symptoms than children without.

The theory of attention restoration was a potential explanation for these findings. This theory focuses on directed and involuntary attention. Where directed attention refers to engaging in deliberate focus, such as during activities like reading, writing or driving. On the other hand involuntary attention describes periods of automatic focus, which occurs when walking on a busy sidewalk or when getting dressed in the morning.

Directed attention is necessary to maintain productivity. It is a limited resource in everyone and is even further reduced in children with ADHD. Taking part in activities such as playing in areas surrounded by greenspace outdoors, allows children to replenish their capacity for directed attention. Spontaneous play on the other hand only enhances involuntary attention.    

2)   What studies have been conducted that demonstrate how urban forests decrease asthma exacerbations?

A group of researchers at Portland State University conducted a study to demonstrate how the urban forest decreases the effects of asthma and other respiratory diseases. The study placed 144 sensors in different areas across Portland and measured nitrogen dioxide levels associated with various sources of air pollution including traffic. The study found that because of the tree canopy’s present throughout Portland:

  • Children ages 4-12 avoided missing 7380 days of school from asthma-related exacerbations

  • Individuals of all ages avoided 54 asthma-related emergency room visits

  • Individuals >65 years of age had 46 fewer hospital stays due to respiratory illness

  • In total $6.6million were saved due to the health benefits of urban forests

The study concluded that the amount of tree coverage had a direct impact in removing nitrogen dioxide levels from the air, which in turn lead to fewer asthma and respiratory-related illnesses in these areas.

3)   What evidence exists that demonstrate how forest bathing therapy specifically benefits human health and well-being?

Dr. Qing Li a senior assistant professor at Nippon Medical School in Tokyo conducted many studies examining the effects of forest bathing on mood, stress levels and the immune system.

One study in particular used the Profile of Mood State (POMS) test to measure the association between forest bathing and physical and mental health. The investigation demonstrated that forest bathing trips increased scores for physical strength/health and decreased the scores for anxiety, depression and anger. Dr. Li’s research concluded that the risk of psychosocial stress-related illnesses may be decreased by engaging in habitual forest bathing.

Other studies measured natural killer (NK) cell levels in association with forest bathing, to determine its effects on immune function. NK cells are elements of the immune system that combat cancer cells. In these studies groups of men and women had their blood drawn before and after being sent to two-night/three day forest bathing trips, which included forest walks and staying in hotels within the forest. Lab results of these study subjects demonstrated increases in NK cell activity for 30 days after returning from their forest bathing trips. Additional analysis demonstrated an increase in NK cell activity for up to 7 days after returning from a day long trip of forest bathing. A potential explanation for the increase in NK activity observed by Dr. Li was in part due to inhaling air consisting of phytoncide (wood essential oils) such as α-pinene and limonene. These are antimicrobial volatile organic compounds produced by trees in order to prevent rotting and to provide protection against insects.            

Sources

1)    AlterSpark, Http://www.alterspark.com Website Design by. "The Urban Forest." Home. N.p., n.d. Web. 23 Oct. 2016.(http://www.yourleaf.org/urban-forest)

2)    "Climate Science Glossary." Skeptical Science. N.p., n.d. Web. 23 Oct. 2016. (https://www.skepticalscience.com/urban-heat-island-effect.htm)

3)    Intern, By Conrad Kabbaz Policy. "How Urban Forests Can Help Mitigate ADHD Symptoms - American Forests." American Forests. N.p., 11 Aug. 2015. Web. 23 Oct. 2016. (https://www.americanforests.org/how-urban-forests-can-help-mitigate-adhd-symptoms/)

4)    Parallelus. "Not a Member Yet? Register Now and Get Started." HPHP Central Forest Bathing Comments. N.p., n.d. Web. 23 Oct. 2016. (http://www.hphpcentral.com/article/forest-bathing)

5)   "Trees Help Prevent Asthma, Respiratory Diseases, Study Says." Trees Help Prevent Asthma, Respiratory Diseases, Study Says. N.p., n.d. Web. 23 Oct. 2016.

             (http://phys.org/news/2014-09-trees-asthma-respiratory-diseases.html)

6)    "Urban Forest." Wikipedia. Wikimedia Foundation, n.d. Web. 23 Oct. 2016. (https://en.wikipedia.org/wiki/Urban_forest)

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Toxins In Scented Products

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Wannabe-Toxic-Free1.jpg

TOXINS IN SCENTED PRODUCTS Speaker: Kerri Brock from Splash Concepts Written by: Sheena Jain & Esha Jain

            Scents, whether from the fragrance of one’s perfume or the aroma of a burning scented candle, can create strong emotional connections for people. Where the scent of an ocean breeze candle can take an individual back to a family vacation at the beach or a mountain scented glade plug-in can bring someone back to the first time they climbed the Himalayan Mountains. Scents can be a great marketing tool for production companies; however, 95% of these aromas are synthetic and contain chemical toxins that are detrimental to our health. Some chemical toxins in particular are the nitro polycyclic musks. Polycyclic musk’s are known as “endocrine disrupters” which along with other toxins can enter our bodies through inhalation, ingestion and dermal inhalation, which is absorbed through our skin. These endocrine disruptors have adverse effects on the pituitary gland, thyroid, ovaries and testes. Some of their effects include low fertility, late puberty or early menopause. Women are exposed to approximately 12 products per day which can be as many as 150-160 chemicals per day.   

            Although many are aware of how detrimental these products can be to their health, scented products and the toxins that they emit is still a complicated concept. This is due to 3 layers: The corporate layer, the government layer and the human behaviour layer.

The Corporate layer: is focused around the fact that $7 billion are made on scented products.

The Government layer: relates to the way products are tested and labelled. Scented products contain approximately 13,000 chemicals, many of which are largely petroleum based. Of these chemicals only 10% are tested. These chemicals are tested in isolation of one another rather than collectively. Therefore the synergistic effects of multiple chemicals that are usually present in one product are not tested together. Regardless of what is tested, many times these chemicals are not included in the ingredient list of product labels.

The Human Behaviour Layer: is centered on why we continue to conduct ourselves in a particular manner regardless of the knowledge we possess e.g. why we still buy scented products knowing their adverse effects.

  • Some reasons why humans may still gravitate towards scented products, is possibly due to being unaware of safer alternatives, due to habit, or for convenience. Many people may not realize the harmful effects of these products at the time of use as they may not have concrete evidence in front of them at all times.

  • Another theory that exists is the Choice/Utility Maximization, which is where people make their choices based on how useful products are to them.

  • Three approaches as to how humans make decisions include: Economic, Cognitive and Social Psychological.

    • Economic choice refers to how we spend our money.

    • Cognitive choice is focused around giving individuals access to the information so that they can gain knowledge and make their decisions accordingly.

    • Social Psychological choice is centered on how one’s purchase connects them with others. Many studies have also been conducted around the effects of “over choice.” It has been found that even with more choices individuals are more prone to go towards either polar spectrum. Regardless of having infinite amount of choices people will still gravitate towards the product that is the cheapest, easiest and the fastest, thinking that since these products are available on store shelves that they must be safe.

  The scented products that people use is ultimately their decision based on their own personal reasoning. There is however some alternatives that have similar effects to scented products but are safer.  People can create “Do it yourself” cosmetics using products from the grocery aisle such as fruits, vegetables, oils and seeds. Individuals can use the safe cosmetic database to assess whether the products they currently using are non-toxic. Other alternatives include looking for clean certified products, giving our bodies permission to sweat and cleanse or even joining the effort to change the default by participating in chemical management plan conversations.  

DISCUSSION QUESTIONS

1)  What ingredients should we avoid when purchasing scented products? What are their effects?

Often times production companies include the term “fragrances” on ingredient labels. This refers to a group of chemicals that may be toxic to our health. These include:

Parabens - Hormone disruptors

 →Interfere with hormone production and release

- “estrogenic effects”

-  Breast Cancer

- Males: Infertility

- Contact Dermatitis in people with damaged skin

- Skin aging

Phthalates - Carcinogen - Liver/Kidney Damage             

- Asthma

- Obesity

- Type II Diabetes

- Neurodevelopmental Issues

 → Attention Deficient Hyperactivity Disorder

 → Autism Spectrum Disorder

 → Behavioural Issues

 → Low IQ

-Reproductive Effects

 → Birth Defects

 → Decreased sperm counts

 → Early breast development in males & females

 → Male fertility issues

Synthetic Musk - Hormone disruptors

- Can accumulate in the environment, fat tissue,

  breast milk and in umbilical cord blood

- Breast Cancer

- Low fertility

- Late Puberty

- Early Menopause

 

SOME OTHER CHEMICALS IN SCENTED PRODUCTS:

Propylene Glycol - Hyperosmolality

- Lactic Acidosis

- Intravascular Hemolysis

- Central Nervous System Depression

- Seizures

- Coma

- Hypoglycemia

- Renal Failure

Sodium Lauryl Sulfate (SLS) - Skin Irritant/ Skin corrosion

- Eye Irritant

- Eye deformities in Children

- Hormone imbalance

 → Menopausal symptoms

 → Males: low fertility (massive drop in sperm count & sperm motility), breast enlargement

 → Gender confusion in males or pregnant women

 → Breast Cancer

- Skin Cancer

Triclosan - Liver Problems

- Depression

- Cancer, Uncontrolled cell growth

- Abnormal Endocrine system/thyroid hormone signaling

- Weakening the immune system

- Children exposed to antibacterial products at an early age:

 → Increased chance of developing: allergies, asthma & eczema

- Developmental & Reproductive toxicity

2)  When burning candles what precautions can be taken to ensure that less toxic chemicals are being emitted into the air?

  • Use beeswax or soy based candles instead of paraffin based candles which are a by-product of petroleum

  • Using non-scented candles because they emit less soot and less particles into the air

  • Using candles with wax that has a hard consistency, since soft gel wax is produced from petroleum oils which emit toxins.

  • Avoid use of wicks that are thicker. Use wicks that are thin, braided and curl when lit.

  • Using candles with a tapered shape (fatter base that gradually gets thinner as you get closer to the wick). Tapered candles are less likely to cause asthma or other lung conditions.

  • If candles with multi-wicks are used ensure that the entire candle burns evenly.

  • Burn candles in a well ventilated room.

  • Avoid burning candles in a room with a draft, as a draft can emit up to 50% more soot.

3)  How to get rid of toxins already emitted into the air from previous use of scented cleaning products?

Many scented products contain artificial fragrances that give off a citrus or pine aroma. Limonene mimics the scent of citrus and alpha pinene produces a pine-like fragrance. It is not these chemicals themselves that are toxic to our health but rather it is the formaldehyde that is produced when these chemicals are emitted into the air that is harmful. Formaldehyde is harmful due to its carcinogenic, skin and breathing irritant effects, causing illnesses such as cancer and asthma.

            Studies have shown that the presence of various houseplants has the ability to naturally remove chemical toxins (i.e. formaldehyde) emitted into the air by scented products. Some of the common house plants that were used during the experiment were:

- Chlorophytum (spider plant)

- Dracaena (dragon tree)

-  Scindapsus (golden pothos)

- Hedera helix (English ivy)

SOURCES

1) "5 Adverse Effects Of Parabens That Cosmetic Industry Does NOT Want You To Know." 5 Adverse Effects Of Parabens That Cosmetic Industry Does NOT Wan. N.p., n.d. Web. 21 Sept. 2016. (http://www.dermatocare.com/blog/5-Adverse-Effects-Of-Parabens-That-Cosmetic-Industry-Does-NOT-Want-You-To-Know)

2) Ahsan, Saleyha. "Home, Sweet Home: How to Combat the 'indoor Pollution' of Scented Candles." The Guardian. Guardian News and Media, 18 Jan. 2016. Web. 21 Sept. 2016. (https://www.theguardian.com/lifeandstyle/2016/jan/18/home-sweet-home-combat-indoor-pollution-scented-candles-cleaning-products)

3) By This SLS Standard Level of Irritation, It. "SLS Health Implications." SLS Health Implications. N.p., n.d. Web. 21 Sept. 2016. (http://www.natural-health-information-centre.com/sls-health-implications.html#axzz4KxapjpNu)

4) Centers for Disease Control and Prevention. Centers for Disease Control and Prevention, n.d. Web. 21 Sept. 2016. (https://www.atsdr.cdc.gov/csem/csem.asp?csem=12&po=14)

5) "Dangers of Triclosan." Safe Dishware, Glass Food Storage, Natural Toys, Organic Baby. N.p., n.d. Web. 21 Sept. 2016. (http://mightynest.com/learn/research-by-concern/dangers-of-triclosan)

6)  Mercola. "Does Your Perfume Include Toxic Chemicals?" Mercola.com. N.p., n.d. Web. 21 Sept. 2016. (http://articles.mercola.com/sites/articles/archive/2013/11/27/toxic-perfume-chemicals.aspx)

7)  "Natural Perfume vs. Synthetic Perfume." Chemicals and Toxic Ingredients in Perfumes. Synthetic Free Perfume. Pour Le Monde All Natural Perfumes. N.p., n.d. Web. 21 Sept. 2016. (http://www.pourlemondeparfums.com/naturalvssynthetic.html)

8)  Westervelt, Amy. "Chemical Enemy Number One: How Bad Are Phthalates Really?" The Guardian. Guardian News and Media, 10 Feb. 2015. Web. 21 Sept. 2016. (https://www.theguardian.com/lifeandstyle/2015/feb/10/phthalates-plastics-chemicals-research-analysis)

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Balancing Exposure to Pesticides in Food

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Speaker: Skye Vanderberg from TD Friends of the Environment FoundationWritten by: Sheena Jain & Esha Jain

            Not only is food necessary to sustain life and provide nutrition but it also gives people a sense of comfort, security and sovereignty.  Food security can be described as all people regardless of socioeconomic status, having access to food to meet their dietary needs. It is the ability to access appropriate food. Food sovereignty refers to people’s rights to healthy and culturally appropriate food produced through economically sound and sustainable methods and their right to define their own food and agricultural systems. Although food is culturally, traditionally, environmentally, and physically important to us all, we must adapt and alter our food choices to ensure that we reduce our pesticide and toxin intake.

            Unlike organic food, conventional foods are grown using pesticides and fertilizers. Although organically grown foods are more expensive, the pesticides sprayed on food are harmful to our health and to the environment. The “Clean 15” and the “Dirty Dozen” were lists that were established to provide information on safe and harmful foods based on their pesticide exposure. Specifically, the “Clean 15” includes crops with a hard outer shell, making it more difficult for pesticides to penetrate through their skin. Therefore the “Clean 15” provides a list of conventionally grown foods that are safe to purchase. The “Dirty Dozen” on the other hand provides a list of crops that are exposed to larger quantities of pesticides, making them more harmful to our health. The “Dirty Dozen” provides a list, in which it is important to choose foods that are grown organically instead of conventionally. These lists provide consumers with the information needed to make healthy dietary choices when purchasing food. 

CLEAN 15 DIRTY DOZEN 1)   Avocados 1)   Strawberries 2)   Sweet Corn 2)   Apples 3)   Pineapples 3)   Nectarines 4)   Cabbage 4)   Peaches 5)   Sweet Peas 5)   Celery 6)   Onions 6)   Grapes 7)   Asparagus 7)   Cherries 8)   Mangos 8)   Spinach 9)   Papayas 9)   Tomatoes 10) Kiwi 10) Sweet Bell Peppers 11) Eggplant 11) Cherry Tomatoes 12) Honeydew Melon 12) Cucumbers 13) Grapefruit 14) Cantaloupe NOTE: Green Beans & Kale are increasing in pesticide exposure 15) Cauliflower

            In addition to pesticide exposure many crops grown in North America are also genetically modified. Genetically modified crops grown on Canadian soil include: canola, corn, soy and sugar beet. Genetically modified foods that are imported from the United States consist of: papaya from Hawaii, milk products, yellow crookneck squash and cottonseed oil. Food items that do not contain any of these products or are labelled as “Non GMO” are not genetically modified.

            Many precautious can be taken to ensure increased food security and sovereignty. In addition to spending more money buying organically grown crops present on the dirty dozen list, you can also devote more time purchasing and preparing food. You can achieve this by turning food preparation into a hobby, date night or social event. Another tactic is to focus your funds on dietary staples. This can be done by going to inexpensive places to purchase dietary staples, stocking up during sales of non-perishables and freezing excess vegetables in order to maintain their nutritional content. Lastly gardening and growing your own foods, can create more optimal growth conditions to ensure ingestion of safer food products.

 

DISCUSSION QUESTIONS:

1)      WHAT ARE SOME HARMFUL HEALTH EFFECTS CAUSED BY PESTICIDE EXPOSURE IN FOODS?

Short-term impacts - Headaches

- Nausea

Acute dangers - Nerve irritation/damage

- Skin irritation/damage

- Eye irritation/damage  

- Headaches

- Dizziness

- Nausea

- Fatigue

- Systemic Poisoning: is occasionally fatal

Cancers - Leukemia

- Non-Hodgkin’s Lymphoma

- Hodgkin’s Lymphoma

- Brain Cancer

- Bone Cancer

- Breast Cancer

- Ovarian Cancer

- Prostate Cancer

- Testicular Cancer

- Liver Cancer

Endocrine disruption

(Some examples of endocrine disrupting chemicals in pesticides include:

DDT, Lindane, Atrazine, Carbaryl, Parathion)

- Reproductive harm

 → Infertility

- Harmful effects on embryonic development

 → Birth defects

 → Developmental defects in offspring

      (i.e. hormonal imbalance, incomplete sexual

      development,impaired brain development,

      behavioural disorders)

 → Growth issues in fetuses (i.e. low birth weight)

 → Fewer nerve cells in fetuses

Central Nervous System Effects - Memory loss

- Loss of coordination

- Reduced Visual ability

- Uncontrolled Mood

- Uncontrolled Behavioural issues

- 70% increased risk of developing Parkinson’s Disease

Multiple Chemical Sensitivity / Environmental Illness

(a medical condition in which the body is unable to tolerate relatively lower levels of chemical exposure)

- Dizziness

- Cardiovascular Problems

- Depression

- Muscle aches/pains

- Joint aches/pains

2)      WHAT ARE THE EFFECTS OF PESTICIDES ON CHILDREN?

Compared to adults, children are particularly more susceptible to pesticide exposure. This is due to children having a greater skin surface area relative to their small body stature, making it easier for pesticides to penetrate through their skin.  Additionally children have the tendency to play outside in the dirt and put anything in their mouth, potentially causing direct contact with these chemicals. Children having increased exposure to pesticides along with having immature immune systems, make the impact of these toxins even greater.  

Since the human brain has not fully developed until the age of 12, pesticide exposure in children can cause negative effects on their central nervous system. Previous studies have shown that even lower concentrations of pesticides can impact a child’s brain chemistry, causing effects on behaviour, learning and attention. Pesticide exposure has been linked to the development of attention deficit hyperactivity disorder and autism spectrum disorder. A study conducted by the Agency for Toxic Substances and Disease Registry in February 2009 showed the development of brain cancer in children living in homes where pesticides are used.

 

3)      WHAT ARE SOME ALTERNATIVE METHODS DONE TO AVOID PESTICIDE USE?

Some alternatives methods to avoid the use of pesticides are:

Integrated Pest Management - Growing pest-resistant crops

- Killing plant-eating pests using predatory insects

- Using mechanical pest traps

- Plowing underneath harvested crops in order to  eliminate pest   

 nesting areas

- Pesticides are only used as a last resort

Crop Rotation & Other Growing Techniques - Crop Rotation: planting crops in different locations every season

  → This allows the replenishing of soil that previously had their

       nutrients removed by plants

- Intercropping: planting crops in close proximities

These techniques prevent the infestation of pests and insects by:

- Allowing soil to replenish themselves, naturally

- Breaking pest cycles

- Reducing the growth of weeds

- Allowing for plant diversity

F

SOURCES:

1)  Chai, Carmen. "The Dirty Dozen and Clean Fifteen: 2016's List of Fruits, Vegetables with the Most Pesticides." Global News The Dirty Dozen and Clean Fifteen 2016s List of Fruits Vegetables with the Most Pesticides. N.p., 19 Apr. 2016. Web. 24 Sept. 2016. (http://globalnews.ca/news/2645396/the-dirty-dozen-and-clean-fifteen-2016s-list-of-fruits-vegetables-with-the-most-pesticides/)

2)  Foundation, GRACE Communications. "Pesticides." GRACE Communications Foundation. N.p., n.d. Web. 24 Sept. 2016. (http://www.sustainabletable.org/263/pesticides)

3)  "Organophosphates." U.S National Library of Medicine. U.S. National Library of Medicine, n.d. Web. 24 Sept. 2016. (https://tools.niehs.nih.gov/srp/research/research4_s3_s5.cfm)

4)  "Protecting Your Health from Pesticides." David Suzuki Foundation. N.p., n.d. Web. 24 Sept. 2016. (http://www.davidsuzuki.org/issues/health/science/pesticides/protecting-your-health-from-pesticides/)

5)  Thammishetti, Srikar. "Neurotoxins, Poisons, and Pesticides." Prezi.com. N.p., 01 Dec. 2014. Web. 25 Sept. 2016. (https://prezi.com/hpg6xbbi-3_0/neurotoxins-poisons-and-pesticides/)

6) "The Problem with Pesticides." Communities In Action. N.p., n.d. Web. 24 Sept. 2016. (http://www.toxicsaction.org/problems-and-solutions/pesticides)

 

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Managing Toxic Thoughts

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Speaker: Vincent Schutt from Environmentum (A Project of Tides Canada)Written by: Sheena Jain & Esha Jain            

Using the acronym F.E.A.R, Vincent Schutt has created a strategic method on how to approach and manage “toxic thoughts.” He suggests that first, we as individuals need to locate the source behind the toxic thought, in order to eventually resolve or reconcile with that initial thought.  The following depicts the necessary steps required to adequately manage toxic thoughts.

1)  Frame:  Locate your toxic thought

    → This can be done by classifying the source of the thought as:

  • The individual themselves

  • Their Family

  • Their Community

  • Their City

  • Their Province

  • Their Country

  • Their Global Society

2)  Evaluate the thought: Narrow in on the type of problem, in order to gain perspective on what steps

   can be taken to improve the “toxic thought”. This will prevent the “toxic thought” from, weighing the

   individual down.

    → Create a spectrum that increases progressively from least to most beneficial ways to   

          improve the toxic thought.     

3)      Assess/Appreciate: Locate where you are on the spectrum

4)      Reconcile: Determine whether you have the capacity in your life to do something about the toxic

       thought.

  • Maybe you will realize that you cannot actually move forward with resolving this toxic thought

  • Maybe you will not be able to approach this problem right away because you have spectrums in other areas that need to be addressed first

  • Managing your toxic thoughts using these steps can give you a better perspective on where you are in terms of managing the problem, what future steps you can take, and what limitations you may have. Thus allowing you to put the thought to rest once and for all.     

Using the above steps, Mr. Schutt demonstrated how you can manage toxic thoughts regarding the elimination of waste products for example.

 

1)      Frame: Waste management is a problem located in the city in which you live

FRAMES EVALUATE Global Society Country Province City 0-High consumption

1- Not Separating waste products at all

2- Make some mistakes sorting waste products

3- Compost & Recycle

4- Reuse

5 - Reduce

Community Family Me

2)      Evaluate: See spectrum above

3)      Assess/Appreciate: Using his example, Mr. Schutt classified himself as being between

      Steps 3 & 4, in terms of how he handles waste in his everyday life.

4)      Reconcile: This activity puts into perspective: where the problem lies, a spectrum of how people may

      handle this problem, where you classify yourself in terms of improving this problem, what further

      actions you can take and what limitations you may have when it comes to this problem. This will

      essentially allow you to come to terms with the “toxic thought: so that it does not weigh you down.

   

 

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Eco-Friendly Product Design Company: The Drumi

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Speaker: Megan SavageWritten By: Sheena & Esha Jain

OVERVIEW:

            DRUMI, the foot powered washing machine, what lead to the invention of this “travel size” laundry machine? It all started with an innovative university student, Yi Jiang and an unpleasant experience at the laundromat. This lead to further research, regarding other disadvantages of public laundromats.

            Some of the biggest concerns with public laundromats include environmental factors such as CO2 emissions, energy and water consumption as well as travel time required to go to the laundromat to get clothes cleaned. Based on his research, the following statistics were found:

Per load Annually (if 1X/week) 500 Watts of Power 26 Kilowatts of power 50 L of Water 2600L of Water 2.4 kg CO2 emission 124.8kg CO2 emission $4 per load $200

These factors have detrimental effects on our environment because they contribute to ocean acidification, smog pollution and ozone depletion. These environmental issues in turn, have a direct effect on human health and plant growth. Health concerns that arise following exposure include: reduced life expectancy, inhalation of emissions can lead to lung cancer as well as increases chances of developing respiratory and cardiac disease. Harmful effects on plant growth and nutrition levels include a 2-5% decrease in key staple crops.

The development of the DRUMI made many breakthroughs in reducing the negative effects of public laundromats. Its convenience reduces the total amount of time required to travel to the laundromat and complete a load of laundry. With the Drumi, one can complete a load of 7 articles of clothing in a total of 5-10 minutes, decreasing laundry days by up to 75%.  It uses only 5-10L of water per load and reduces consumption by up to 90 kg of CO2 emission per year. The development of the Drumi has been successful in diminishing many environmental concerns that occur with public laundromats. If the Drumi is implemented by all GTA residents it can reduce carbon neutrality by almost 300 million (254 700 000)kg CO2 emissions each year.

           Increasing awareness and educating more people about the advances made by the development of the Drumi, can allow more of the population to take advantage of all of its potential benefits, while simultaneously helping to improve our environment.

Discussion Question:

1)      What are other ways in which human activity causes CO2 emissions into the environment?

 

Electricity - Electricity is generated through fossil fuel combustion

- The amount of CO2 emission varies based on the type of fossil fuel being used

- CO2 emission is greater when burning coal is used to generate electricity in

 comparison to using oils or natural gases

Transportation

(e.g. highway vehicles, air travel, marine transportation & rail)

- The second largest source of CO2 emission is the use fossil fuel combustion

  for transportation

- Fossil fuels used for transportation include: Gasoline & Diesel

Industry - Industries emit CO2 through:

  → Fossil fuel combustion

  → Chemical reactions:

              - Mineral (e.g. cement) production & consumption

          - Metal (Iron, Steel) production

          - Chemical production

  → Indirectly through electricity usage

 

2) What are other ways in which we can reduce the emission of CO2 into the environment?

 

Method How to Execute Energy Efficiency - Fuel efficient vehicles

- Efficient electrical appliances (e.g. ENERGY STAR appliances)

- Improving building insulation

Energy Conservation - Only turning on lights & electronics when in use

- ↓petroleum consumption by ↓ vehicle usage  

Fuel Switching - Using renewable sources

- Switching to fossil fuels that emit less CO2

Capturing & Sequestering Carbon - Capturing & compressing CO2 emitted into the environment

- Using pipelines, transport CO2  ≥1 mile underground, where CO2 is trapped

 underneath non-porous rock, preventing it from entering into the atmosphere

 

3)      What effects does CO­2 Emission have on our environment?

Atmosphere - ↑ the Earth’s temperature

- Overtime could increase to temperatures that are unable to support living organisms

Ocean - Ocean Acidification affecting marine organisms

 1) Bicarbonate forms when carbonate ions react to waters carbonic acid

  →  These carbonate ions are typically used to create calcium carbonate shells of aquatic   

            organisms like coral

  →  Reduced availability of these ions, causes more energy expenditure to make shells,

       causing them to be thin and more fragile

 2) The more acidic the water the better able it is to dissolve calcium carbonate

   →  As water acidity increases, carbonate shells of aquatic organisms will dissolve

                   creating weak & pitted shells  

- ↑ Ocean temperature, creating  unfavourable conditions for the growth of Phytoplankton

Land - ↑ Environmental temperatures & humidity à extends growing season of plants, which  

  increases plant growth  

- Increased plant growth increases amount of water required by plants

- Overtime this places stress on plants

  → Causing plants to slow growth in summer due to  ↑ temperatures and less available water

  → These “dry water-stressed plants” are more vulnerable to insects & fires

 

SOURCES:

1)      "Overview of Greenhouse Gases." Carbon Dioxide Emissions. N.p., n.d. Web. 24 June 2016. (https://www3.epa.gov/climatechange/ghgemissions/gases/co2.html)

2)      "The Carbon Cycle : Feature Articles." The Carbon Cycle : Feature Articles. N.p., n.d. Web. 24 June 2016. (http://earthobservatory.nasa.gov/Features/CarbonCycle/page5.php)