The M I N E R A L S !!!

Eat your minerals and be a nice human! That is all. 🙂

Minerals are inorganic compounds that retain their chemical identity – they are never converted to anything else within the human body. Although this is the case, minerals have the ability to bind to other compounds. Given their binding capacity, minerals are components of vitamins, hormones, enzymes, and various different complexes in tissues and bone throughout the body. Dozens of minerals exist – but only 16 are considered essential to support physiological roles within the body and support optimal health and wellness. The 16 essential minerals include: calcium, chloride, chromium, copper, fluoride, iodine, iron, magnesium, manganese, molybdenum, phosphorus, potassium, selenium, sodium, sulfur, and zinc. These minerals are essential to support bodily functions such as acid-base balance and regulating osmotic pressure.

Minerals are classified according to the amount present in the human body. The three classifications include: 1. Macrominerals: with  >5 grams present in the body (7 in total), 2. Trace Minerals (micro): <5 grams present, and 3. Ultratrace minerals: minute amounts present < 1 milligrams. Trace minerals are equally as important to our health as macrominerals, we just require them in smaller amounts.  Toxicity is an issue with minerals – when a given mineral concentration is found to be too high within the body, this can result in adverse effects on one’s health. All minerals are considered to be toxic at high levels.

Below is a chart of the 16 essential minerals, and (1) what physiological function they play within the body and their importance for adequate consumption, (2) what food sources they can be found in, and  (3) the deficiency symptoms, syndrome or condition associated with inadequate intake of the given mineral. Abiding by a balanced diet containing whole foods will help to ensure that you are ingested an adequate amount of minerals – in this case it would not be challenging to meet the necessary requirements.

Note that the minerals with a * are macrominerals.


Physiological Role within the Body Food Sources Deficiency Symptoms, Syndrome or Condition associated with inadequate intake of the mineral


  • One of the most important minerals in the human body!
  • Important for the formation, growth and maintenance of strong bones and teeth.
  • Necessary for optimal immune system function, nerve activity, and for the function and maintenance of muscle contractions.
  • Involved in  blood pressure regulation, hormone and enzyme secretions, and necessary for blood clotting
  • milk and milk products (DAIRY!!),
  • fortified soy beverages,
  • green leafy vegetables – in particular: cooked bok choy & broccoli,
  • tofu,
  • soybeans,
  • navy beans,
  • white beans

Hypocalcemia – this condition results when calcium levels in the blood are too low. Long term, this has potential to lead to osteoporosis.

  • A very important electrolyte found in one’s blood that helps to control various bodily processes such as: the balance of fluid inside and outside one’s cells, and enables the maintenance of appropriate blood volume, blood pressure and pH of various bodily fluids
  • seaweed,
  • rye,
  • tomatos,
  • olives,
  • lettuce,
  • celery
Hypochloremia (or Hypochloraemia) – electrolyte interference in which there is an irregularly low level of chloride in one’s blood, symptoms include – dehydration, fluid loss, diarrhea or vomiting
  • Plays a key role in breakdown of fats and carbohydrates
  • Works with insulin to control and regulate blood sugar (glucose) levels.
  • broccoli,
  • potatoes,
  • green beans,
  • poultry,
  • beef,
  • whole-grain products,
  • apples,
  • bananas,
  • milk and dairy products.
Lack of chromium in the diet hinders the body’s ability to utilize glucose to meets its energy requirements, resulting in increased insulin requirements
  • Heavily reliant on iron – involved in the formation of red blood cells, the synthesis of various proteins and enzymes, the metabolism of glucose, and the absorption of iron.
  • Liver,
  • oysters,
  • spirulina,
  • lobster,
  • shiitake mushrooms,
  • leafy green vegetables,
  • legumes,
  • nuts and seeds,
  • dark chocolate

Symptoms include: low white blood cell count, anemia, paleness, issues with connective tissue, neurological problems, and muscle weakness.

There is a very rare genetic disorder known as Menkes disease which is a disease that interferes with copper absorption.

  • Involved in the formation of teeth and bones – helps to prevent tooth decay
  • The content present in foods is low, but is found in drinking water, some teas and fish.
Tooth decay and increased dental caries, brittle or weak bones.
  • Involved in the synthesis of thyroid hormones which are created by the thyroid gland – this helps to regulate growth, metabolism, and development.
  • Seafood – cod, tuna, seaweed, shrimp,
  • Dairy products – cheese, yogurt, milk
  • Grains – breads and cereals
Deficiency symptoms are very similar to those of hypothyroidism or low thyroid hormones and include: weight gain, weakness, fatigue, swelling of the neck, learning difficulties, pregnancy-related issues, and heavy or irregular periods
  • An essential component of hemoglobin -a protein found in red blood cells that transports oxygen throughout the body
  • Needed for cell growth and differentiation
  • Necessary for energy metabolism
  • An important component of myoglobin – a protein which provides oxygen to muscles
  • Red meats (liver, beef, pork),
  • organ meats,
  • chicken,
  • oysters and clams,
  • leafy green vegetables (broccoli, spinach, swiss chard),
  • legumes (lentils, peas, dried beans),
  • tofu,
  • dried fruits (prunes, figs),
  • egg yolks,
  • fortified cereals and whole grain products
The development of anemia – symptoms include: general fatigue, shortness of breath, dizziness, pale skin, pica (cravings for substances that are not food)
  • Main role in the body is as a cofactor for various enzymatic reactions
  • Plays a vital role in protein synthesis and energy metabolism, regulating blood sugar levels, and helping to optimize immune system health
  • Additionally, magnesium is necessary for many physiological functions such as muscle contraction and relaxation, heart rhythm, and vascular tone.
  • Green leafy vegetables,
  • nuts and seeds (sesame, sunflower, pumpkin),
  • legumes (lentils, peas, dried beans),
  • seafood,
  • chocolate,
  • artichokes,
  • whole grain products
  • milk & yogurt,
  • tofu,
  • fortified soy beverages
Symptoms include: loss of appetite, fatigue, nausea, weakness, muscle cramps and spasms, and vomiting.
  • Main role is to metabolize various nutrients
  • Necessary for a range of chemical processes such as aiding in the metabolism of cholesterol and carbohydrates
  • Additionally, involved with the utilization and digestion of amino acids and protein.
  • Green leafy vegetables,
  • nuts & seeds,
  • legumes,
  • whole grains – often added to breakfast cereals and fortified foods
  • Generally speaking, foods containing dietary fibre provide magnesium thus it is widespread in foods

Hindered glucose tolerance, and altered metabolism of carbohydrates and lipids which has potential to result in impaired growth and reproductive function

  • Helps to activate various enzymes that are needed to prevent the build-up of toxins in the body and works to assists in the breakdown of various sulfites
  • Legumes are the richest source,
  • whole grains,
  • nuts,
  • leafy vegetables,
  • beef liver, and
  • cereal grains
Deficiency is extremely rare and only occurs in individuals with a rare genetic disorder known as molybdenum cofactor deficiency resulting in encephalopathy, leading to seizures and brain damage
  • Necessary for the formation of bones and teeth
  • Plays a key role in carbohydrate and fat metabolism
  • Needed for the generation of protein, in order to aide in repair of cells and tissues
  • Additionally, an important component of the maintenance of acid-base balance within cells
  • Milk and milk products,
  • meat,
  • poultry,
  • fish,
  • seeds and nuts,
  • whole grains,
  • eggs
Hypophosphatemia – which can result in bone diseases such as rickets in children and Osteomalacia in adults
  • Main function within the body is for proper fluid balance, working to maintain osmotic pressure and acid-base balance
  • Also helps to regulate nerve signals and muscle contractions
  • Bananas,
  • oranges,
  • apricots,
  • potatoes,
  • sweet potatoes,
  • beets,
  • broccoli,
  • squash,
  • legumes
  • milk products,
  • nuts,
  • whole grains
Hypokalemia – results when potassium levels in the blood serum are too low – this frequently results in vomiting, diarrhea, and adrenal gland disorders.

Often Hypokalemia leads to the use of diuretics, muscle weakness, twitching and cramping, and abnormal heart rhythms

  • Main purpose is to act as an antioxidant. Reminder: antioxidants are chemical compounds that help to protect cells from free radicals, preventing them from cell damage
  • Additionally, important for DNA production, reproduction and thyroid gland function
  • Turkey,
  • pork,
  • beef,
  • chicken,
  • fish,
  • shellfish,
  • eggs,
  • various whole grains,
  • various dairy products
Deficiency symptoms include: muscle weakness, fatigue, hair loss, mental fog and confusion, and negatively impacts both growth and reproduction
  • An electrolyte involved in the maintenance of homeostasis and blood pressure, and the regulation of electrolyte and fluid balance
  • Helps to control acid-base balance by regulating the amount of water that’s in and around your cells (osmotic pressure)
  • Additionally, needed for muscle contraction and nerve transmission
  • Salt,
  • pickles,
  • cured meats such as bacon, ham or corned beef
  • soya sauce,
  • salted or seasoned seeds and nuts,
  • processed foods
Hyponatremia – this occurs when the concentration of sodium in the blood is abnormally low -this is pretty common – especially within older adults.

Frequent symptoms include loss of energy, muscle weakness, headaches, nausea, and lethargy -in severe cases, seizures or a coma can result.

  • Necessary for the production of key proteins within the body such as glutathione and insulin
  • Needed for the synthesis of connective tissue
  • Meat & poultry,
  • fish and seafood,
  • eggs,
  • milk,
  • nuts,
  • legumes
Results in reduced protein synthesis given there is little sulfur available for amino acids

Additionally, inadequate intake can lead to joint pain

  • Plays a vital role in many physiological functions such as: DNA and protein synthesis, carbohydrate metabolism, cell growth, cell division,  production of sperm, sexual maturation, fetal development, immune function, and wound healing
  • Needed for sense of smell and taste
  • Structural component of insulin
  • Milk products,
  • whole grains,
  • poultry,
  • red meat,
  • oysters,
  • chickpeas,
  • nuts and seeds – in particular: almonds, cashews,
  • baked beans
Symptoms include: hair loss, weight loss, skin and eye sores, issues with wound healing and loss of appetite.


Have a great weekend, I hope you get a chance to move your body and enjoy some fresh air!

Anna x

Ps. Click the link if you want a copy of a printable mineral table for quick reference. mineral table


[1] Dietitians of Canada – Home. (2020). Retrieved 15 September 2020, from

[2] Nutrition Guideline: Vitamins and Minerals. (2020). Retrieved 27 September 2020, from



THE BEST 9 Ingredient Homemade Granola

Granola is a quick and easy breakfast or snack that can be added to anything! I prefer to make my own granola rather than buying it not only because it is super easy to make, but also so I can switch up the flavours and choose ingredients that I am craving.

This recipe contains 9 different ingredient categories that you can switch up based on your personal preference and dietary needs. Below I included ingredients for my favourite granola batch.


  1. OATS: 4 cups, toasted
  2. HEALTHY FATS: 1/3 cup melted coconut oil
  3. SWEETNER: 1/3 cup maple syrup
  4. SEEDS: 3 tbsp pumpkin seeds (I often add chia seeds and flax seeds as well)
  5. NUTS: 1 cup pecans (I also like adding walnuts or slivered almonds)
  6. FLAVOUR BOOST: 1 1/2 teaspoon vanilla
  7. DRIED FRUIT: 1/2 cup dehydrated strawberries (I also like coconut flakes, raisins, or apricots)
  8. SPICE: 1 teaspoon cinnamon (I like all spice too)
  9. SALT: 1/4 teaspoon salt


  1. Line a large baking sheet with parchment paper and preheat oven to 350 degrees.
  2. In a large mixing bowl, combine oats, seeds, nuts, spice and salt. Stir until thoroughly combined.
  3. To the mixing bowl, add oil, liquid sweetener, and vanilla. Again, stir this mixture until well combined.
  4. Pour granola mixture onto prepared baking sheet, spreading it out evenly using a large spoon.
  5. Bake for 20-25 minutes or until golden brown, stirring granola halfway through cooking time. Remove granola from the oven and allow to cool completely (~ an hour).
  6. Stir in the dried fruit (and any additional ingredients you would like to add in) and mix. Continue to mix until desired “clumpiness” of granola is reached.
  7. Store the granola in a sealed container at room temperature for up to two weeks, or in the freezer for up to 4 months. Enjoy!

Happy Friday! Have a great weekend!

Anna x


Interpreting and Understanding Nutrition Facts Labels

One of my favourite hobbies will forever be grocery shopping and wandering, while reading nutrition facts labels (I can’t wait till this day is allowed again!) It is important to know, not only what is in the food you are eating, but how to interpret and understand a food label. Reading nutrition labels and grocery shopping isn’t something that should be stressful – but something that can be enjoyable and fun! Foods labels help you to make informed decisions about the foods you are buying and eating.

This post is a guide highlighting how to properly interpret and read a nutrition facts label and a couple of important items to look for when doing so – after all, there are as many as 61 different names for sugar!!!

This post is a little lengthy so here are some highlights: 

  1. Serving Size: All of the information on a nutrition facts table is based on the serving size. It’s important to compare the serving size to both the amount you are actually eating and the number of servings for the whole package. 
  2. Calories: A calorie is a unit of energy, based on estimates. The calorie content listed on a nutrition facts table will inform you of the total amount of calories in a serving size, not necessarily just a single serving size (not that calories are super important, but it is good to know!)
  3. Macronutrients: Carbohydrates are sub-grouped into: sugars, starches, dietary fibre, and sugar alcohols – consider “net carbs”. Not all fats are created equal. Sub-categories include – saturated fats, unsaturated fats – monounsaturated and polyunsaturated, and trans fats. Aim to choose unsaturated fats more often. There are 20 different types of amino acids, which can be combined in numerous forms to make varying proteins. There are 9 essential amino acids, these amino acids are considered essential as they cannot be made by the body, thus must be consumed through food sources.  
  4. Micronutrients: As a general guideline, choose foods that are high in calcium, iron, fibre, and Vitamin C & A and foods that are lower in saturated & trans fats, cholesterol and sodium more often. 
  5. Percent Daily Value (% DV): The percent daily value (% DV) is used to determine whether a food item is low or high in a certain nutrient. A %DV of  5% or less is considered a little bit, while 15% or more is considered a lot, remember that this percentage is based on the serving size.
  6. Ingredient List: Ingredients on food packaging are listed in descending order by the ingredient that is most predominant in the food product – meaning the heaviest ingredient is listed first and the lightest ingredient listed last. 
  7. Nutrient Content and Health Claims: Nutrient content and health claims are optional on food packaging/labels. A nutrient content claims informs buyers of the amount of a specific nutrient contained within a specific food product. Whereas health claims are the statements found on food products that address the certain effects or benefits when consuming specific foods within a healthy diet, and the effect that this has on an individuals health.

For starters, the information on a food packaging and nutrition label includes: (1) a nutrition facts table, (2) an ingredient list, and sometimes, (3) nutrition and health claims are found on food packaging, but this is not essential. In Canada, a nutrition facts label must contain: the serving size, the amount of calories, % daily value and 12 core ingredients (fat, saturated fat, trans fat, sodium, carbohydrate, fibre, vitamin A, vitamin C, calcium and iron) – including cholesterol on a nutrition facts label is optional.

Not all foods are required to have a nutrition facts label, these foods include: fresh fruits and vegetables, raw meat, seafood and poultry, alcohol, foods prepared or made at the store (such as baked goods and salads), and foods that contain few nutrients (spices, coffee, tea).

 Below are 7 important items to look out for when reading a nutrition food label, and how to interpret them properly.

  1. Serving Size
  2. Calories
  3. Macronutrients
  4. Micronutrients
  5. Percent Daily Value (% DV)
  6. Ingredient List
  7. Nutrient Content and Health Claims

1: Serving Size – All of the information on a nutrition facts table is based on the serving size. It’s important to compare the serving size to both the amount you are actually eating and the number of servings for the whole package – this puts things into perspective. Note that the serving size does not necessarily mean that this the quantity of food you should be eating.

2: Calories – A calorie is a unit of energy, based on estimates. The calorie content listed on a nutrition facts table will inform you of the total amount of calories in a serving size and not necessarily a single serving size (not that calories are super important, but it is good to know!) How many calories are in one serving size and how much are you eating relative to the given serving size? With this in mind, you are able to calculate how many calories are in the quantity of food you are eating.

3. Macronutrients – It is helpful to look at the macronutrient content of a food product: (1) fat content, (2) carbohydrate content, and (3) protein content to know exactly how much of each is contained in the product. On a nutrition facts table, within each of these macronutrient categories there are sub categories – ie. the different types of fats – trans fats, saturated fats, ect. Below are a few points to consider when looking at the macronutrient content of various food sources:


Carbohydrates are the most challenging but often the most interesting area to interpret and understand on a nutrition facts table. Carbohydrates are the body’s primary source of fuel and are converted into glucose (sugar) during digestion. Carbohydrates provide 4 calories of energy per gram. Carbs are sub-grouped into sugars, starches, fibre, and sugar alcohols, and are referred to as “simple” or “complex” carbohydrates based on their chemical structure. When reading a nutrition facts table, the total amount of carbohydrates refers to the sum of sugar, starches, and dietary fibre. Below is a quick explanation of the various sub- categories of carbohydrates. 

Sugars are the smallest form of carbohydrate. Sugars include monosaccharides (single sugars) or disaccharides (two sugar molecules combined). Sugars are found both naturally such as in fruits and vegetables but are also added to foods for the purposes of taste, texture, and preservation. 

Starches are a type of carbohydrate that consist of many glucose (sugar) molecules linked together to form long chains. Starches are found naturally in peas and beans, various vegetables, and grains but can also be added to foods to thicken or stabilize them during preparation or processing.   

Dietary Fibre is a type of carbohydrate that is composed of numerous glucose molecules that are linked together – unlike sugar and starches, given the structure of fibre and how the glucose molecules are bound together, dietary fibre cannot be readily digested. There are two types of fibre: soluble and insoluble. Some nutritional facts tables provide a distinction between the two types of fibre, but this is not mandatory. Fibre is found in a variety of foods such as fruits, vegetables, beans, seeds, and whole grains. Dietary fibre works to promote a healthy gastrointestinal tract (especially important for those with inflammatory bowl disease!!!), helps to control blood sugar levels, works to lower cholesterol levels and leaves you feeling satisfied for longer. 

Sugar Alcohols are a type of carbohydrate that have the chemical characteristics of both sugars and alcohols. Sugar alcohols are found in very small amounts naturally in certain fruits and vegetables, but are most often commercially made from sugars and starch. Sugar alcohols are marketed to consumers as a sugar-free or reduced- calorie sweetener and are found in various foods.  Since sugar alcohols have fewer calories than table sugar (sucrose), they are often used as a replacement. Sugar alcohols do not count towards the total sugar count on food labels. Common sugar alcohols include: sorbitol, xylitol, erythritol, inulin, and mannitol (xylitol is highly toxic to dogs). Sugar alcohols are known to cause stomach upset and gastrointestinal discomfit in those with sensitive stomachs – especially with those who have IBS, IBD, or digestive issues. Be mindful of this when consuming foods that contain a high sugar alcohol content. Similar to dietary fibre, sugar alcohols are partially resistant to digestion, thus they do not have as large as an effect on blood glucose levels in comparison to “real sugar”. 

Often “net carbs” is a tern used when reading the carbohydrate section of a nutrition facts label. Since dietary fibre is indigestible and it has very little impact on ones blood glucose levels, it is subtracted from the total carb count – the remaining is a products net carbs. To determine the amount of net carbs a food item contains, subract the fibre content from the total carb content. 


Fat is necessary for hormone regulation, to assist in absorbing vitamins A, D, E, and K and various minerals, is essential for building cell membranes, lining and protecting cells, and needed for the production of essential fatty acids. Fat contains 9 calories per gram. Fats are classified as either saturated or unsaturated. 

Saturated fats are solid at room temperature and are mainly found in animal food sources, such as milk, meat, and cheese, but are also found in various oils such as coconut and palm oil. A diet rich is saturated fat has potential to increase ones cholesterol levels, thus if an individual consumes too much over a long period of time, their risk of acquiring cardiovascular disease is heightened.

Unsaturated fats are liquid at room temperature and consist of mainly oils from plants. Eating unsaturated fats more often helps to improve ones cholesterol levels. 

Monounsaturated fats help to lower low-density lipoprotein (LDL) “bad” cholesterol levels and  maintain healthy levels of high-density lipoprotein (HDL) or “good” cholesterol. HDL works to help clear cholesterol from the blood stream, reducing ones risk of acquiring heart disease by working to support insulin sensitivity and energy levels. Whereas LDL cholesterol can build in the walls of arteries forming plaques, negatively impacting your health long term and increasing your risk of acquiring heart disease. In order for an individual to reap the benefits of monounsaturated fats, they must also lower their saturated fat and trans fat intake. Some food sources of monounsaturated fat include: olives, olive oils, avocaods, nuts and nut butters. 

Polyunsaturated fats include omega 3 and omega 6 fats. Consuming polyunsaturated fats are beneficial as it helps to lower LDL cholesterol levels, and are of benefit in reducing inflammation and supporting optimal hormone levels, again, reducing ones risk of acquiring heart disease. Some food sources of polyunsaturated fats include: oily fish, soybean, nuts, and seeds. 

Trans fats are considered the worst type of fat to consume. Trans fat decrease one’s levels of HDL, while raising LDL cholesterol levels, thus consuming a large amount of trans fats has been linked to an increased risk of acquiring cardiovascular disease. Most trans fats are formed by a process called hydrogenation, this helps to solidify the fat at room temperature and increases its shelf life. Trans fats are very cheap to produce, hence why they are found in a variety of different foods – particularily processed and fast foods, baked goods and shortening.  

Aim to choose unsaturated fats more often! 


Protein is made up of small organic molecules called amino acids, that attach together forming a long chain. Protein is essential for the growth, maintainence and repair of bones, skin, blood, muscles and cartilage. There are 20 different types of amino acids, which can be combined in numerous forms to make varying proteins. There are 9 essential amino acids, these amino acids are considered essential as they cannot be made by the body, thus must be consumed through food sources. A complete protein is a food source of protein, that contains all 9 essential amino acids, for example, quinoa. Similar to carbohydrates, protein contains 4 calories per gram. Some examples of sources of proteins found on food labels include: actin, collagen, fibronectin, and elastin.

4. Micronutrients – Quickly looking over the micronutrient content of foods is also of benefit. Looking at the various micronutrient content is beneficial if you are seeking out products that are high or low in a specific micronutrient. As a general guideline, choose foods that are high in calcium, iron, fibre, and vitamin C & A and foods that are lower in saturated & trans fats, cholesterol and sodium more often.

5. Percent Daily Value (% DV) – The percent daily value (% DV) is used to determine whether a food item is low or high in a certain nutrient. The %DV is based on the Recommended Daily Intake (RDI) for minerals and vitamins, and reference standards. A %DV of  5% or less is considered a little bit, while 15% or more is considered a lot, remember that this percentage is based on the serving size. The %DV is beneficial as a guide if you are deciding between two different products and want the product with a higher or lower content of a specific nutrient, for example a product that has a high content of iron. Note that the % DV is based on a 2,000 calorie diet for a healthy adult, per day, however you may eat more or less than this.

Below is a chart of various Nutrients and their Daily Values, provided by the Government of Canada:

Canada, H. (2020). Percent daily value – Retrieved 5 June 2020, from

The % DV for a nutrient is calculated by: dividing the amount of a nutrient in a serving size by its daily value, then multiplying that number by 100.

For example, knowing that the daily value for fibre is 25 g, if a certain granola bar contains 6 g of fibre, this means that the %DV for fibre would be 24%. (6 g ÷ 25 g) × 100 = 24% DV

6. Ingredient List – An ingredient list is the list of all the ingredients contained in a food product, and is found at the bottom of a nutrition facts table. Ingredients on food packaging are listed in descending order by the ingredient that is most predominant in the food product – meaning the heaviest ingredient is listed first and the lightest ingredient listed last.

Often nutrients are listed on ingredients list under many different names, ingredients to be mindful of include: trans and saturated fats, sugar, sodium, and additives and/ or preservatives. Sometimes reading the various ingredients listed and actually knowing what they are is difficult as ingredients such as sugar have numerous names: sucrose, HFCS (high-fructose corn syrup), crystalline fructose, barley malt, maltose,  crystalline fructose, dextrose, coconut sugar, fruit juice, rice syrup, to name a few! After taking the time to read ingredient lists, you will become much more familiar with the ingredients used in food products.

A note on additives and preservatives:

Preservatives and additives are added to food for numerous reasons, and occur both naturally and synthetically. Preservatives are commonly added to foods to kill or slow the growth of harmful bacteria, extend the food products shelf life, to act as a gelling agent, an emulsifier, or a thickening agent, to amplify a products taste, or to enhance the colour. Often preservatives and additives are listed at the end of the ingredient list as they are often found in very small amounts. A few examples of additives/ preservatives include: citric acid which is used to prevent the browning of fruit, tocopherols and ascorbic acid which look like frightening ingredients but are simply the chemical names for Vitamin C and E and work to prevent microbial growth, lactic acid which is often added to fruit drinks and is the by product of corn or cane sugar, and sorbic acid which prevents your red wine from growing fungi and bacteria (which is very important ;)). Although numerous people are fearful of preservatives and additives, thinking they are necessary to avoid, in reality, if we did this, we would miss out on a lot of tasty foods! If preservatives and additives are present in foods, they must be included in safe amounts. If you are abiding by a balanced diet, the amount of preservatives and additives you are ingesting will not be of concern as overall your diet will consist of various fruits, vegetables, and whole grains. If consumed in small amounts, preservatives and additives pose no risk to your health. Like most things in excess, if you are ingesting an excess amount of processed foods, you are more likely to be ingesting a large amount of preservatives and additives and this has potential to be harmful to your health. The only preservatives and additives to be mindful of are nitrates and nitrites, which are often used as preservatives in processed meats. Excess consumption of nitrates and nitrites have been linked to increased risk of colorectal cancer.

Choosing foods in which you know all of the ingredients contained in the food product is often challenging and not necessary, but with time, can become easier.

7. Nutrient Content and Health Claims – Finally, nutrient content and health claims are beneficial to make note of. Nutrient content and health claims are optional on food packaging/labels. Both nutrient content claims and health claims on food products are regulated by the Government of Canada. A nutrient content claims informs buyers of the amount of a specific nutrient contained within a specific food product. For example: “source of”, “high in”, “excellent source of”, “___ free”, “low in”, “___ reduced”. Whereas health claims are the statements found on food products that address the certain effects or benefits when consuming specific foods within a healthy diet, and the effect that this has on an individuals health. For example, “Adequate calcium and vitamin D as part of a healthful diet, along with physical activity, may reduce the risk of osteoporosis in later life.” Nutrient content and health claims are beneficial when comparing different products, when you are looking for a product that is high or low in a specific nutrient or when you want to know why it is beneficial to consume a certain nutrient.

A complete list of the meanings of content claims in Canada can be found at the following link:

Additionally, for products to be considered in various categories – “organic” for example, it is regulated by the Canadian Food Inspection Agency (CFIA) and must follow a set of specific guidelines to ensure that the product is not misleading to buyers.

In Summary….

Food is fuel!!! It’s handy to understand how to read a food label and nutrition facts table to determine the amount of energy your food contains and the various nutrients that you are fuelling your body with. Although this is the case, it is important to always keep it mind that you should aim to abide by a diet of moderation, balance and sustainability! #ALLFOODSFIT

Happy label reading! 😉 Have a great weekend!

Anna x


Ellis, E. (2019). The Basics of the Nutrition Facts Label. Retrieved 3 June 2020, from

Health Canada. (2019). Understanding food labels – Retrieved 3 June 2020, from

Health Canada. (2012). Nutrient content claims: what they mean – Retrieved 5 June 2020, from

Kimber, K. (2019). Additives and Preservatives – Are they really that bad? | Online Dietitian, Helping You Eat Happy. Retrieved 6 June 2020, from

Understanding Food Labels in Canada – Unlock Food. (2019). Retrieved 6 June 2020, from

Weisenbeger, J. (2020). Macronutrients | Learn About Carbohydrates, Proteins & Fats. Retrieved 1 June 2020, from


Homemade Sour Dough Bread


Making homemade sourdough bread takes a lot of time, accuracy, and consistency. During this time of social distancing/isolation is the perfect chance to learn how to make it! It took our household NUMEROUS attempts and many failed loaves to even partially master it.

Not only is sourdough bread super tasty, it has a very low glycemic index (GI).  The GI is a relative ranking of carbohydrate containing food and drinks, and indicates the effect that these carbs have on ones blood glucose levels. Foods that contain a low GI help to keep blood sugar levels steady, avoiding spikes. This helps to prevent insulin resistance and the potential development of diabetes.

The long fermentation process gives sour dough bread its distinct taste. During the fermentation process, digestive enzymes and protein function is enhanced,  making it easier on the digestive system for those who are intolerant or sensitive to gluten.

Although the process is quite lengthly (~10 days – but can take as long as 2 weeks for the starter to become active), the taste of the bread will be worth it! It’s important to be precise when feeding the starter. Don’t be discouraged if your first few (or 12) loaves don’t turn out as well as you had hoped! Follow the instructions below for the simplified guide to making homemade sour dough bread.

What you’ll need:

  • 2, 1 litre sterile glass canning jars
  • whole wheat flour
  • 1, 2 litre bottles of distilled water – unfortunately there is no way to avoid using bottled water as the water must be distilled and free from all minerals
  • digital kitchen scale
  • cloth (jay, cheese)

First, you need to make the starter (fermented dough – this a live culture of  yeast and lactobacilli bacteria resulting from flour and water that enables the bread to rise):


  • 100 mL distilled water
  • 100 g whole wheat flour
  • 50 mL distilled water x 9
  • 50 g whole wheat flour x 9


  1.  Combine 100 g of whole wheat flour and 100 mL of distilled water in a glass canning jar. Mix this mixture with a fork until smooth. Cover mixture with a jay cloth and store jar in a place with a consistent temperature between 25-30 degrees, for 24 hours.
  2. Remove 100 grams from this mixture and place it into a new canning jar. To this jar, add 50 mL of distilled water and 50g of whole wheat flour. Mix this new mixture with a fork until smooth, cover with a jay cloth and again, store the jar at a consistent temperature for 24 hours. Discard excess of the leftover mixture (OR, to minimize waste, you can use this to make pancakes, banana bread, biscuits, chocolate pumpkin loaf, ect. .. you can get creative!)
  3. Repeat this feeding process for the coming days (at least 5). The starter will begin to rise and bubble. Bubbles indicate fermentation, meaning the yeast is developing in your culture which is a good sign, this means that your starter is doing what its supposed to be doing! Side note: if a liquid appears on the top of the starter this is normal, and indicates that your starter needs to be fed. This is called “the hooch”, and has a very foul smell. It is best to discard this by pouring it off.
  4. At around day 10, there should be plenty of bubbles present in your starter, both large and small. If your starter is bubbly, active, fluffy and spongy, it means it is active and ready to make bread!

Now, to shape and bake the sourdough bread (the complicated part): 

What you’ll need:

  • digital kitchen scale
  • large mixing bowl
  • a tea towel
  • plastic wrap
  • a dutch oven
  • parchment paper


  • 230 mL of filtered water
  • 400 grams of all purpose flour (you can experiment with replacing some all purpose flour with whole wheat or rye flour) + flour for spinkling
  • 160 grams of active starter
  • 5 grams of salt


  1.  Add 160 grams of your starter to a large mixing bowl, to this add 230mL of filtered water. This is referred to as the “leaven”, and enables the bread to rise.
  2. Using your hand, muddle this mixture to breakup the leaven.
  3. To this mixture add 400 grams of all purpose flour (you can experiment with replacing some all purpose flour with whole wheat or rye flour).
  4. With your hands, while continually turning the bowl, scoop the flour, water and starter mixture into the centre of the bowl, until it is thoroughly combined and all the flour has been incorporated – the dough will be pretty sticky at this point.
  5. Cover this mixture with plastic wrap and allow to rest at room temperature for ~20 minutes.
  6. After resting for 20 minutes, sprinkle 5 grams of salt over the dough. Continue to mix the dough in the same manner as in Step 4, until all the salt is incorporated – you will notice at this point that the dough is not as sticky. Cover the dough with plastic wrap and let sit at room temperature for ~ half an hour.
  7. Mix the dough in the same circular motion, for ~30 seconds. Set the dough aside and let rest for three hours – this is the first rise, known as “bulk fermentation”.
  8. During these 3 hours, every 30 – 45 minutes, “stretch and fold” the dough, this strengthens the dough. To do this, wet your hands, and fold the dough into the centre while turning the bowl. Continue until the dough forms a ball in the centre of the bowl, this is done in place of kneading.
  9. Next, shape the dough. After resting, stretching and folding for 3 hours, gently remove the dough from the mixing bowl using a scraper, onto a floured surface.
  10. To shape the dough, fold all sides into the middle, pulling in the corners, until forming a round shape.
  11. Pick up the dough using a scraper, and flip it over. Use your hands to tuck the dough into a circular shape. Let the dough rest on the counter for 10 minutes.
  12. Pick up the dough and again flip it over. Once more, folding in the sides towards the middle until a round shape is formed. Sprinkle flour over the top of the dough.
  13. Place the dough (seam side up) into a floured proofing basket or a large mixing bowl lined with a tea towel. Cover the bowl with a tea towel and wrap the bowl in a sealed plastic bag.  Place it in the fridge to rest for at least 12 hours.
  14. Heat up a dutch oven with the lid on, in the oven for 20 minutes at 450 F.
  15. Remove the dough from the fridge and bring it to room temperature.  Place a piece of parchment paper over the the basket or bowl and gently flip the dough onto the counter. Score the top of the bread with a sharp knife and immediately transfer the dough into the dutch oven.
  16.  Bake the dough at 450 F for 20 minutes with the lid on. Remove the lid and continue to cook for 20 more minutes at 425 F or until the internal temperature is ~200 F.
  17. Transfer the bread out of the dutch oven onto a wire rack to let cool for at least 3 hours.
  18. (Drench the sour dough with butter &) Enjoy!!

I watched this youtube video as a guide to help with the shaping and baking process. It is super helpful!

Special thanks to Dede and Mark for the assistance 😉

Happy sour dough making!

Anna x




Dear Test Kitchen. (2020). How To Make The Best Sourdough Bread | Dear Test Kitchen [Video]. Retrieved from




The Importance of Fibre in Your Diet

What is dietary fibre?

Dietary fibre is a carbohydrate and the structural part of plant foods – such as vegetables, fruits and grains. Unlike other carb sources, dietary fibre is a non-glycemic carbohydrate. The human body is unable to digest or breakdown fibre, meaning that it cannot be broken down into digestible sugar molecules, thus is not a source of absorbable glucose. Despite this, ingested fibre can be fermented in the colon to produce short-chain fatty acids which can be used as a source of energy. There are two kinds of fibre: soluble and insoluble.

Soluble fibre dissolves in water to form a gel like substance, enabling digestion to be slowed. This not only helps to lower blood cholesterol levels, but slowing digestion also allows blood glucose levels to remain steady, avoiding blood glucose spikes.

Some sources of soluble fibre include: fruits (apples, bananas, citrus fruits, pears, figs, prunes, strawberries, avocados, and apricots), vegetables (carrots, broccoli, brussel sprouts, green cabbage, and cauliflower), legumes (lentils, black beans, kidney beans, garbanzo beans, lima beans, and green peas), chia seeds, flax seeds, psyllium, barley, oats, and oat bran.

In contrast, insoluble fibre does not dissolve in water and works to stimulate the movement of intestinal content through the digestive system, this adds bulk to one’s stool. Insoluble fibre is of large benefit to help normalize bowel movements – preventing constipation and irregular stools. Insoluble fibre is of particular importance for those with inflammatory bowl diseases (IBD) as it helps to optimize gut health.

Some insoluble, fibre rich food sources include: nuts (almonds & peanuts), whole grains, cereals, wheat bran,  whole-wheat flour, brown rice and the skins of various fruits and vegetables – like kiwis! 🙂

Recommended intake:

Recommendations for individualized dietary fibre intake depend on a number of factors such as age, gender, and energy intake. As a general guideline, it is recommended that Canadian women consume ~25 grams of fibre per day and men consume ~38 grams of fibre per day.  Meeting these recommendations daily poses numerous benefits to your health!

The physiological roles and benefits of adequate dietary fibre consumption:

Individuals who consume adequate amounts of dietary fibre are at significantly lower risk for developing hypertension (HTN), type 2 diabetes, coronary heart disease (CHD) obesity, stroke, and certain gastrointestinal (GI) diseases. Here’s why:

  • Sufficient fibre intake helps to lower blood pressure and serum cholesterol levels – Bile is a greenish-brown alkaline substance that aids in digestion. The liver uses blood cholesterol to make bile. On a high fibre diet, bile binds to fibre and is excreted in the feces. Alternatively, on a low fibre diet, much of the cholesterol in bile is absorbed back into the bloodstream, elevating ones blood cholesterol levels. Given this, soluble fibre helps to lower cholesterol by binding to bile. Abiding by a high fibre diet works to decrease cholesterol, reducing your risk of acquiring various cardiovascular diseases.
  • An ample intake of soluble fibre improves glycemia and insulin sensitivity (helps control blood sugar levels) in both non-diabetic and diabetic individuals – Persistent elevated blood sugar levels leads to chronic insulin circulation. Chronic insulin circulation induces insulin resistance and/or impaired glucose tolerance, often leading to the development of type 2 diabetes. Eating adequate amounts of fibre avoids this by slowing the rate of digestion. This helps to better regulate blood sugar levels as levels remain relatively consistent and are not spiked rapidly. Additionally, ingesting adequate amounts of fibre acts as a glycemic index reduction, this enables the body to release insulin at a slower rate, again, controlling blood glucose levels and avoiding glucose spikes. This reduces ones risk of acquiring type 2 diabetes.
  • Adequate fibre intake normalizes bowel movements – Without going into too much gross detail, adequate fibre intake both softens and increases the bulk of your stool, making it easier to pass – this limits constipation. Additionally, ample fibre intake limits diarrhea and watery stools by allowing for the absorption of water – this adds bulk to the stool and helps it to solidify. Eating adequate amounts of fibre mitigates both constipation and diarrhea, helping to maintain optimal bowel health.
  • Sufficient fibre intake helps with weight control and has potential to enhance weight loss – Adequate fibre intake results in increased satiety, leading you to feel satisfied after meals and full for longer. Foods rich in fibre are more filling in comparison to low-fibre foods. This prevents both over eating and hunger between meals, often leading to a decrease in energy intake and weight loss.
  • High fibre intake benefits numerous gastrointestinal disorders that are often seen with IBD such as: Gastroesophageal Reflux Disease (GERD), hemorrhoids, diverticulitis, duodenal ulcer, and constipation  A high intake of dietary fibre in comparison to a low dietary intake has potential to alleviate negative GI discomfort,  minimize symptoms, lessen gastric acid production, reduce reoccurring inflammation, and is likely to be a protective measure and prevent the reoccurrences of flare ups. For these reasons,  a high fibre diet is often suggested for the management and prevention of various GI issues. It is important to keep in mind that individual nutritional needs vary. Specifically for those with GI complications, foods that cause GI discomfort vary based on the individual. For those with GI disorders consult a health professional prior to making drastic changes to your diet!
  • Prebiotic fibres have potential to enhance immune function (& are GREAT for your gut health!!) – Non-digestible carbs (such as probiotics and fibres) can be fermented in the colon, promoting the stimulation of the growth of beneficial bacteria in the colon. This encourages the generation of short-chain fatty acids, in turn stimulating the immune system. 

For these reasons, fibre is an important part of your diet! 

If you intend to increase your fibre intake, add fibre to your diet slowly and increase the amount gradually. Increasing your fibre intake too quickly has potential to result in negative implications such as abdominal bloating, stomach cramping and constipation. Additionally, increasing your fibre intake gradually gives the bacteria naturally present in your GI tract a chance to adjust to the change.

Tips for increasing dietary fibre in your diet: 
  • Choose whole grain products more often – try sources such as barley, wild rice, brown rice, whole-wheat pasta, bulgur wheat, buckwheat, whole wheat couscous, quinoa, wheat germ,  lentil pasta, and edamame pasta.
  • Sneak fibre into your cooking and baking – some examples include: substituting whole-grain flour into baked goods, adding seeds (chia or hemp) to spaghetti sauces, adding beans and lentils into soups, or adding a few tablespoons of fibre rich food sources into snacks like yogurt bowls, smoothies, and cereals. This is an easy way to boost your fibre content and often you can’t even taste it!
  • Consume more fruits and vegetables – not only are fruits and veg rich in fibre, but rich in various vitamins and minerals too!
  • Incorporate more legumes into your diet – eating more plant based food sources will not only boost your fibre intake but will come with various other benefits to your health!
  • Choose snack foods that are rich in fibre – choose snack foods such as granola bars, cereals, crackers, gorps, granolas, and even popcorn that are rich in fibre.
  • Take time to read nutrition labels while grocery shopping – choose products that contain a high amount of fibre. Foods that contain at least four grams of fibre per serving are considered a rich source of fibre. Foods “very high” in fibre have at least six grams per serving.
  • Consider a fibre supplement – Although meeting your daily fibre recommendations through whole foods in comparison to a fibre supplement is preferred, if you find yourself habitually failing to consume an adequate amount of fibre, a fibre supplement may be a good idea. Consult a health professional prior to taking fibre supplements as some have potential to result in negative health implications.
So….Why is fibre a staple in your diet? 

Fibre is an important part of your diet for numerous reasons as it poses many benefits to your health. In addition to the discussed advantages of consuming an adequate amount,  fibre is a great source of various vitamins, minerals and antioxidants. To reap the benefits of fibre, you need to drink adequate amounts of water – fibre depends on water! When abiding by a high fibre diet, drinking enough water is particularly important as this prevents constipation and promotes movement throughout the GI tract.

Fibre is an important staple in your diet for the many benefits it has to your health!

Enjoy your weekend, I hope it’s filled with fibre!

Anna x



Anderson, J., Baird, P., Davis Jr, R., Ferreri, S., Knudtson, M., & Koraym, A. et al. (2009). Health benefits of dietary fiber. Nutrition Reviews, 67(4), 188-205. doi: 10.1111/j.1753-4887.2009.00189.x

Health Canada., (2019). Fibre – Retrieved 23 March 2020, from

High Fiber Diet: Types of Food & Health Benefits. (2019). Retrieved 25 March 2020, from