Oxalate (oxalic acid) is a compound found in a wide range of plant foods, and it is often called an antinutrient.
Although oxalate can be problematic for certain individuals, it is usually not a concern for most healthy people.
In fact, normal metabolic processes in the body create oxalate whether we consume it within our diet or not (1).
However, an excessive intake of oxalate may potentially increase the risk of kidney stones for people prone to the condition.
According to the National Kidney Foundation, people at risk for kidney disease or who have a history of kidney stones should limit consumption of oxalate-rich food (2).
This article provides a list of foods high in oxalate.
Foods High In Oxalate
It is notoriously difficult to find the accurate oxalate content of different foods. For this reason, this guide collates reliable data from numerous sources to provide a comprehensive listing.
The data for this list comes from datasets provided by Harvard School of Public Health.
Additionally, research on oxalate concentrations in vegetables, published by the Journal of Agricultural and Food Chemistry, helped to provide more extensive data.
These data have been adapted into uniform serving sizes wherever possible.
For each food group, you can see the foods with the most oxalate in descending order. The values are for foods in their raw state unless otherwise stated.
Generally, foods that contain more than 10 mg oxalate per serving are classed as ‘high oxalate’ foods (3).
Before we look at foods, here are some popular drinks that have oxalate data available.
|Drink||Serving Size||Oxalate Content|
|Hot Chocolate||1 cup||65 mg|
|Carrot Juice||1 cup||27 mg|
|V8 Juice||1 cup||18 mg|
|Tomato Juice||1 cup||14 mg|
|Brewed Tea||1 cup||14 mg|
|Rice Dream||1 cup||13 mg|
In addition to the above beverages, any drink made from oxalate-rich fruits or vegetables will also contain high amounts.
For example, green smoothies featuring vegetables like spinach and swiss chard can contain significant oxalate concentrations.
Additionally, plant-based “milk” made from nuts will also provide large amounts of oxalate.
|Condiment||Serving Size||Oxalate Content|
|Miso||1 cup||40 mg|
|Stuffing||1 cup||36 mg|
|Tahini||1 tbsp||16 mg|
|Peanut Butter||1 tbsp||13 mg|
Soy products are a significant source of oxalic acid, so in addition to miso, soy-based condiments/dishes like natto, cheonggukjang, and tempeh will contain high amounts.
Furthermore, other nut butter made from almonds, pistachios, and other nuts will be high in oxalate.
|Dried Fruit||Serving Size||Oxalate Content|
|Dried Pineapple||½ cup||30 mg|
|Dried Figs||5 pieces||24 mg|
|Dried Prunes||5 prunes||11 mg|
As shown above, dried figs, pineapple, and prunes contain relatively high amounts of oxalate.
Furthermore, any dried versions of oxalate-rich fresh fruit (see next section) will also contain high concentrations.
|Fruit||Serving Size||Oxalate Content|
|Raspberries||1 cup||48 mg|
|Orange||1 fruit||29 mg|
|Dates||1 date||24 mg|
|Grapefruit||1 fruit||24 mg|
|Avocado||1 fruit||19 mg|
|Olives||10 olives||18 mg|
|Kiwi||1 fruit||16 mg|
|Tangerine||1 Fruit||10 mg|
Raspberries are the most significant fruit source of oxalate.
Additionally, it is worth noting that citrus fruits contain significant concentrations of oxalic acid in their peel.
Grains, Flours, and Powders
|Food||Serving Size||Oxalate Content|
|Rice Bran||1 cup||281 mg|
|Buckwheat Groats||1 cup||133 mg|
|Wheat Berries (cooked)||1 cup||98 mg|
|Corn Grits||1 cup||97 mg|
|Soy Flour||1 cup||94 mg|
|Bulgur (cooked)||1 cup||86 mg|
|Cocoa Powder||4 tsp||67 mg|
|Brown Rice Flour||1 cup||65 mg|
|Cornmeal||1 cup||64 mg|
|Millet (cooked)||1 cup||62 mg|
|Whole Grain Wheat Flour||1 cup||29 mg|
|Soy Protein Isolate||1 oz (28 g)||27 mg|
|Brown Rice (cooked)||1 cup||24 mg|
|Lasagna Pasta||1 serving||23 mg|
|All-Purpose Flour||1 cup||17 mg|
|Couscous||1 cup||15 mg|
|Spaghetti Pasta||1 cup||11 mg|
|White Rice Flour||1 cup||11 mg|
In addition to these raw ingredients, any manufactured/pre-made foods that contain them are likely a large source of oxalate.
Here is a list of possible examples;
- Chocolate bars
Packaged Cereal Products
As a significant source of grains, the majority of cereal products will contain high amounts of oxalate.
Here is a breakdown of the oxalate data that is available for popular cereal brands.
|Cereal||Serving Size||Oxalate Content|
|Raisin Nut Bran||1 cup||57 mg|
|Multi-Bran Chex||1 cup||36 mg|
|Total Raisin Bran||1 cup||31 mg|
|Fiber One||1 cup||26 mg|
|100% Granola Oats Honey||1 cup||26 mg|
|Oatmeal Crisp w/ Almonds||1 cup||24 mg|
|Honey Nut Clusters||1 cup||23 mg|
|Low-Fat 100% Granola||1 cup||20 mg|
|Wheaties Raisin Bran||1 cup||11 mg|
|Cereal||Serving Size||Oxalate Content|
|Go Lean||1 cup||18 mg|
|Good Friends||1 cup||13 mg|
|Puffed Kashi||1 cup||13 mg|
|Cereal||Serving Size||Oxalate Content|
|Raisin Square Mini-Wheats||1 cup||55 mg|
|All-Bran Original||1 cup||52 mg|
|Raisin Bran||1 cup||46 mg|
|Complete Wheat Bran Flakes||1 cup||45 mg|
|All-Bran Buds||1 cup||40 mg|
|Muesli Apple & Almond||1 cup||30 mg|
|Frosted Mini-Wheats||1 cup||28 mg|
|Raisin Bran Crunch||1 cup||27 mg|
|Low-Fat Granola Raisin||1 cup||24 mg|
|Mueslix||1 cup||23 mg|
|All-Bran Extra Fiber||1 cup||22 mg|
|Cracklin’ Oat Bran||1 cup||13 mg|
|Smart Start||1 cup||15 mg|
|Cocoa Krispies||1 cup||15 mg|
|Just Right Fruit & Nut||1 cup||13 mg|
|Cereal||Serving Size||Oxalate Content|
|100% Bran||1 cup||75 mg|
|40% Bran||1 cup||48 mg|
|Spoonsize Shredded Wheat||1 cup||45 mg|
|Shredded Wheat||1 cup||42 mg|
|Cranberry Almond Crunch||1 cup||35 mg|
|Grape Nuts||1 cup||28 mg|
|Great Grains Crunch Pecan||1 cup||27 mg|
|Great Grains Raisin & Date||1 cup||25 mg|
|Banana Nut Crunch||1 cup||23 mg|
|Cereal||Serving Size||Oxalate Content|
|Corn Grits||1 cup||97 mg|
|Red River Cereal||1 cup||52 mg|
|Nabisco Honey Shredded Wheat||1 cup||47 mg|
|Nabisco Shredded Wheat||2 biscuits||42 mg|
|Cream of Wheat||1 cup||18 mg|
|Farina Cereal||1 cup||16 mg|
Nuts contain a substantial amount of oxalate even in relatively small amounts.
Here is a look at the available data.
|Nut||Serving Size||Oxalate Content|
|Almonds||1 oz (28 g)||122 mg|
|Cashew Nuts||1 oz (28 g)||49 mg|
|Mixed Nuts||1 oz (28 g)||39 mg|
|Peanuts||1 oz (28 g)||27 mg|
|Trail Mix||1 oz (28 g)||15 mg|
|Pistachios||1 oz (28 g)||14 mg|
|Pecans||1 oz (28 g)||10 mg|
Walnuts (and other nuts) will also contain oxalate in varying concentrations.
Additionally, be aware of nut products such as almond flour, nut butter, and any kind of food with nut ingredients.
Some popular vegan-friendly protein options contain oxalate due to their soy content.
However, the available data for this group is not significant, and the amounts may vary depending upon brand/specific ingredients.
|Vegan Product||Serving Size||Oxalate Content|
|Vegan Burger||1 Patty||24 mg|
|Tofu||3.5 oz (100 g)||13 mg|
|Soy Burger||3.5 oz (100 g)||12 mg|
Vegetables (and Beans)
In this section, you can see the available data on the oxalate content of various vegetables.
Remember that only the foods that have available (and reliable) data are here.
|Vegetable||Serving Size||Oxalate Content|
|Spinach (cooked)||1 cup||1510 mg|
|Rhubarb||1 cup||1082 mg|
|Okra||1 cup||1014 mg|
|Spinach (raw)||1 cup||656 mg|
|Beet Greens||1 cup||500 mg|
|Red Swiss Chard||1 cup||420 mg|
|Green Swiss Chard||1 cup||347 mg|
|Beets||1 cup||152 mg|
|Navy Beans||1 cup||152 mg|
|Baked Potato w/ skin||1 medium||97 mg|
|Rutabaga||1 cup||62 mg|
|Turnip||1 cup||60 mg|
|Fava Beans||1 cup||40 mg|
|Bamboo Shoots||1 cup||35 mg|
|Tomato Sauce||1 cup||34 mg|
|Refried Beans||1 cup||32 mg|
|Parsnip||1 cup||30 mg|
|Red Kidney Beans||1 cup||30 mg|
|Sweet Potato||1 cup||28 mg|
|Carrots||1 large carrot||20 mg|
|Celery (cooked)||1 cup||10 mg|
|Collards||1 cup||10 mg|
What Is a Low-Oxalate Diet?
Low-oxalate diets are frequently characterized as being <100 mg per day (4).
Of course, anyone who feels they need to limit oxalate should do so after consulting with their dietitian or medical physician.
Additionally, there is no need for most healthy people to limit oxalate, and many oxalate-rich foods are healthy and nutrient-dense.
This guide provided a list showing foods that contain high amounts of oxalate.
Once again, these are the most common oxalate-rich foods which had reliable data available.
However, this does not mean that food not mentioned on this list is definitely low in oxalate.
Overall, the highest oxalate foods include almonds, grains, and vegetables such as spinach, beet greens, and rhubarb.
Lastly, it is worth remembering that just because food has a high oxalate content doesn’t mean it is unhealthy.
“Eat your fruits and vegetables!” You’ve probably heard that nagging scold more often than any other nutritional advice — not only from your mother but from doctors, health organizations, and governments — over the last four decades.
Eating fruits and veggies is so often recommended as the best way to live longer, healthier lives, that questioning it seems unbelievably controversial. After all, observations show that healthy people who eat fruits and vegetables can consistently live into their 90’s and 100’s.1While this may show that fruits and veggies can be part of a healthy lifestyle for some, it does not prove that they are required for a healthy lifestyle for everyone.
How many fruits and vegetables do we need to eat? Might some people be better off eating fewer than recommended? More provocatively, do we need any at all? In a world where fruit bowls and green smoothies are seen as virtuous and bacon is viewed as sinful, it may seem difficult to even consider these possibilities.
Yes, there’s been a lot of research on the health benefits of fruits and vegetables, but is it rigorous enough to recommend a standard minimum daily intake? And does the quality of the rest of your diet make a difference in that recommendation? Read on to learn where the scientific evidence currently stands on fruits and vegetables.
1. What are fruits?
Fruits are the seed-containing portion of various flowering plants. They grow exclusively above ground.
Different types of fruit
The broad categories of fruit include pome, citrus, tropical, melons, stone fruits and berries. Most fruits taste sweet, although citrus varieties are often sour or bitter. With the exception of bananas, most domesticated fruits are juicy due to their high water content.
Nutritional composition of fruits
Nearly all of the calories in fruit come from sugar — not surprising, given their sweet taste. Their net carb counts span a large range: 5 grams to 20 grams of carbs per 100 grams (3.5 ounces) of fruit, depending on the type. A single mid-sized orange would have about 12 grams of carbs and a banana at least 23 grams.
Reviewing the nutrition profiles of different fruits, we see that several are good sources of vitamin C and a few minerals. However, the actual nutrient content can vary depending on the type of fruit, how and where it’s grown and stored, and how long it’s been sitting at a stand or grocery shelf.2 In addition, all fruits fall short in vitamin D and key minerals like calcium, magnesium, iron and zinc.
2. What are vegetables?
Speaking from a botanical or gardening point of view, vegetables are the leaves, stems or roots of plants. However, many non-sweet fruits are commonly considered vegetables for eating or cooking purposes.
Different types of vegetables
Vegetables can be broadly classified into four categories:
- Above-ground vegetables: greens (spinach, lettuce, chard, et cetera), cruciferous vegetables (broccoli, Brussels sprouts, cabbage, cauliflower, kale, et cetera), bulbs (onions, garlic) and fungi (mushrooms).
- Below-ground/root/starchy vegetables: beets, carrots, parsnips, rutabagas, turnips, yams, potatoes, sweet potatoes etc.
- Gourds: pumpkins, hard-shelled squashes and other winter squashes.
- Technically fruits but treated like vegetables: avocados, olives, bell peppers, eggplant, tomatoes and zucchini. Unlike other fruits, these aren’t sweet and are often prepared and consumed with other vegetables. Avocados and olives are unique among fruits and vegetables because most of their calories come from fat rather than sugar or starch.
Nutritional composition of vegetables
Non-starchy vegetables are keto-friendly foods that provide 5 or fewer grams of net carbs per 100-gram (3.5-ounce) serving. Not so for the root and starchy vegetables, though, which range from 6 to 17 grams of net carbs per serving. Vegetables usually contain moderate to high amounts of fiber, especially avocado — which also happens to be among the lowest in net carbs.
3. How many fruits and vegetables should people eat per day?
Looking at official recommendations for fruit and vegetable intake in different countries, it’s clear that they’re basically all variations on “5 a day.” The US dietary guidelines, the UK National Health Service, and the World Health Organization all set minimums that are generally equivalent to two cups of fruit and two and a half cups of vegetables each day.
According to the Centers for Disease Control, only 1 in 10 adults consistently meet the US Dietary Guidelines recommendations for fruit and vegetable intake.3 But is this really a problem?
Some low-carb and ketogenic diet experts would say no; that if someone is following a diet that meets their needs for essential nutrients, eating several servings of fruits and vegetables every day isn’t necessary. For instance, Dr. Eric Westman initially recommends two cups of leafy greens and one cup of above-ground vegetables per day — and no sweet fruit of any kind — as part of a very-low-carb diet.4
Health organizations state that their recommendations for fruit and vegetable intake are evidence-based. But as we’ve discussed previously in other guides, there are different levels of scientific evidence. And almost all these fruit and vegetable recommendations are designed for someone who is eating a standard Western diet or a low-fat, high-carb diet.6
Let’s explore the high-quality evidence available to see whether eating more fruits and vegetables has actually been proven to improve health.
4. Research on the benefits of eating fruits and vegetables
With few exceptions, eating more fruits and vegetables is standard weight loss advice. But if we look at the results of experimental trials in which people actually ate more — or at least were encouraged to eat more — of these foods, that advice just doesn’t seem to work for everyone.
A 2014 systematic review of eight randomized controlled trials (RCTs) lasting between 4 and 52 weeks found that people assigned to increase their fruit and vegetable intake lost an average of only 1.5 pounds more than those assigned to eat smaller amounts of these foods.7
The same year, researchers who published a systematic review of seven different RCTs failed to find any measurable differences in weight change between people who consumed high vs. low amounts of fresh produce.8
However, the interventions differed among the RCTs included in both of these analyses. In some cases, people were provided with fresh fruits and vegetables or vouchers to purchase them; in others, they only received advice to consume more of a specific fruit or vegetable. Furthermore, in most of these studies, researchers relied on reported produce intake from the groups rather than closely monitoring their intake. Often it just wasn’t clear whether people actually ended up eating their assigned amounts of fruits and vegetables or not.
In some cases, people who eat more fruits and vegetables may actually gain weight because they don’t compensate by cutting back on other foods — and juice seems to be especially problematic.
For instance, in one RCT, when overweight and obese people were provided with fresh fruits and vegetables to add to their diets for eight weeks, they gained twice as much weight as lean participants, who responded to increased produce intake by eating less of other foods. However, people from all three groups gained weight after consuming the same amount of produce in juice form during a second eight-week period. Still, obese participants gained the most.9
On the other hand, replacing highly processed refined food with fruits and vegetables is not only a smart choice nutritionally; it might also lead to weight loss. In a three-month study, overweight women who were given vouchers to purchase fresh produce lost 6 pounds, whereas those who were given vouchers to purchase any type of groceries gained 4 pounds by the study’s end.10
Overall, though, eating more fruit and vegetables hasn’t been shown to produce meaningful weight loss in most experimental studies.
Yet we often hear that doing so is the key to achieving and maintaining a healthy weight. What is the basis for this advice?
For decades, it’s been predominantly larger yet lower-quality observational (also called epidemiological) research. For instance, a 2015 systematic review analyzing 17 epidemiological studies found statistically weak associations between eating a lot of produce and lower body weight and waist size.11
In observational nutrition studies, a hazard ratio (HR), odds ratio (OR) or relative risk (RR) that is close to 1 means there is almost no observable difference. That means any OR less than 2 or greater than 0.50 strongly suggests that any association between a behavior (e.g., eating produce) and an outcome (e.g., weight loss) is possibly random and false. What were the ORs in this study? They were 0.83 for high intake of fruits or vegetables separately, and 0.91 for high intake of fruits and vegetables combined. Indeed, even the study authors acknowledged that “The present meta-analysis seems to be limited by low study quality.”
Diabetes and metabolic syndrome
Fruits and vegetables are generally considered diabetes-friendly foods. In fact, nearly all types of produce make the “low GI foods” list on the American Diabetes Association website, with the exception of melons and pineapple. But how does adhering to “5 a day” or similar dietary advice affect blood sugar control and insulin resistance? The evidence from clinical trials is mixed.
One systematic review and meta-analysis of eight RCTs examining the effects of fruit and vegetable intake in people with metabolic syndrome found that although diastolic blood pressure slightly improved in those who ate more produce, fasting blood sugar levels were no different among the groups.12 The same held true for waist circumference, triglycerides and HDL cholesterol levels — all of which are considered markers of insulin resistance when outside the normal range.13
In 2017, Scottish researchers analyzed results from four RCTs with fruit and vegetable interventions in people with type 2 diabetes or other health conditions. The groups assigned to eat more fruits and vegetables improved their vitamin C and beta-carotene intake but consumed significantly more carbs and calories.14 That doesn’t sound very diabetes-friendly, does it?
In one randomized controlled trial published in Diabetes Care — a journal of the American Diabetes Association — researchers assigned overweight adults to consume two, four, or seven portions of fruits and vegetables per day for 12 weeks. Ultimately, none of the groups experienced any improvement in insulin resistance.15
However, results from another RCT suggest that including low-carb vegetables like broccoli and broccoli sprouts may help lower insulin levels and improve insulin sensitivity in adults with type 2 diabetes.16 Of course, neither the experimental nor control group were consuming low-carb or keto diets. It’s unknown whether adding broccoli or other green vegetables to low-carb or keto diets would provide any further benefit on insulin resistance. Since low-carb diets by definition eliminate two likely offenders behind insulin resistance — sugar and other high-carb foods — there may already be a maximal benefit which may not increase by adding more vegetables. Controlled trials exploring this would need to be done.
What about lower-quality observational studies that suggest eating plenty of fruits and vegetables can help protect against diabetes? Large meta-analyses of these studies have shown very weak associations between fruit and vegetable intake and diabetes risk.17
Finally, although results from observational nutrition studies often have such weak correlations that they’re likely due to chance, occasionally there are exceptions. For example, a 2017 prospective cohort study in pregnant women found that those who reported consuming the highest amount of fruit during their second trimester had a 480% greater risk (OR of 4.82) of developing gestational diabetes than women with the lowest reported fruit intakes.18
Controlled studies exploring this relationship are needed. However, it certainly seems possible that eating large amounts of fruit (“nature’s candy”) during pregnancy — a time of dramatic hormonal fluctuations and insulin resistance — could increase a woman’s likelihood of developing gestational diabetes.
Are fruits and vegetables heart-healthy? Although some experimental research suggests that eating more produce might reduce some cardiovascular disease (CVD) risk factors, the bulk of evidence to date is inconclusive in regards to clinical outcomes.
For instance, in 2013 researchers conducted a systematic review of 10 RCTs investigating whether increased fruit and vegetable consumption led to improvements in heart health markers. They reported that the trial designs differed significantly and often included other nutrition and lifestyle interventions that may have contributed to observed beneficial effects on CVD risk. Their conclusion? Further trials investigating higher fruit and vegetable intake as the sole intervention are needed.19
Another systematic review of RCTs found that high potassium intake seemed to be beneficial for arterial health, while the effects of high fruit and vegetable intake on arterial function weren’t clear.20
Some RCTs conducted after the 2013 systematic review discussed above suggest that eating more fruits and vegetables may increase blood levels of antioxidants that could improve HDL function and might also reduce inflammation in those at high risk for CVD, such as those with diabetes.21
Yet others found no reduction in CVD risk factors in overweight people who consumed seven servings of produce per day compared to those who consumed two servings per day for 12 weeks.22 In these studies, blood levels of lutein (an antioxidant found in vegetables) were measured to confirm compliance among the different groups.
The evidence from observational studies in this area is very weak. For instance, a large 2017 meta-analysis of 95 studies reported only an 8 percent reduction (RR of 0.92) in CVD risk for every 200 grams of fruits and vegetables people reported consuming per day, up to a maximum of 800 grams per day (roughly 10 servings).23 Yet despite the very weak association and low quality of evidence, major medical organizations cite this paper as conclusive support that fruits and vegetable reduce heart disease event.
Is it possible that you can greatly decrease your risk of heart disease solely by eating 10 servings of fruits and vegetables every day? The relative risk findings suggest that this association has a high chance of being random and false. Plus, given that food-frequency questionnaires and food recalls in observational studies are notoriously inaccurate, it makes sense that we should not rely on this low-quality evidence to make individual health decisions.24
In all likelihood, anyone who actually eats 10 servings of produce on a daily basis likely also engages in other habits known to protect heart health, such as working out regularly and avoiding junk food, excessive alcohol consumption and smoking.
“Eating lots of fruits and vegetables can help reduce your cancer risk.” This message is taken verbatim from the website of the American Cancer Society. But is there strong scientific evidence that eating large amounts of fruits and vegetables will help protect you from cancer?
Although fruits and vegetables are whole foods that contain beneficial nutrients, it’s too early to make that claim for them. In fact, it’s too early to make that claim for any foods with certainty, because very little high-quality experimental research has examined how specific foods affect cancer risk and progression.
It’s known that damage to cellular DNA may raise the risk of developing cancer in the future. One randomized cross-over study in healthy people found that consuming kiwifruit for three weeks led to increased antioxidant activity that helped repair DNA, regardless of whether small or large amounts were consumed.25 Similar results were seen in young male smokers who consumed three servings of broccoli per day for 10 days.26
However, other studies haven’t shown any improvement in DNA repair in people who increased their fruit and vegetable intake.27 And one even suggested that cruciferous vegetables may temporarily damage DNA, although this effect seems to disappear within several hours.28
Can healthy people reduce their chance of developing cancer by consuming antioxidants found in plants? At this point, we don’t know. After all, our bodies have their own built-in antioxidant systems in place that, when functioning normally, can help repair cell damage.29Additional trials exploring the effects of fruits and vegetables on DNA repair would give us more information about this.
Cruciferous vegetables contain compounds that might help reduce cancer risk in several ways, such as decreasing inflammation and improving cell signaling.30 Yet it appears there’s probably a threshold of these protective compounds that can be absorbed, so that very high intakes offer no further benefit than consuming more modest amounts.31
Many fruits and vegetables have other phytochemicals (literally “plant chemicals”) with potential anti-cancer activity, such as resveratrol and sulforaphane.32 However, their effects have been studied mainly in test tubes and animals. High-quality human research is needed before any conclusions can be made about their use in cancer prevention or treatment.
In contrast to the limited amount of experimental research, plenty of observational studies have explored the relationship between fruit and vegetable intake and cancer risk. Researchers who conduct systematic reviews and meta-analyses of these studies often conclude that people who eat the most fruits and vegetables decrease their risk of developing cancer. Yet these analyses reveal weak associations (RRs of 0.78 to 0.92) between eating a lot of produce and being diagnosed with any type of cancer, including breast, lung, colon, bladder, and non-Hodgkin’s lymphoma.33
In summary, eating fruits and vegetables — especially cruciferous types — may very well decrease your risk of cancer, but much more rigorous research is needed before we can say this for sure.
Nearly all research on the benefits of fruit and vegetables for other conditions is observational, but a couple of experimental studies suggest potential benefits:
- Bone health: Results from one RCT found that increasing intake of certain fruits, vegetables and herbs may improve bone health. Postmenopausal women assigned to consume the “Scarborough Fare” diet — which included several daily servings of leafy greens, cabbage, onions, mushrooms, prunes and, of course, parsley, sage, rosemary and thyme (remember the old Simon and Garfunkel song?) — experienced less bone breakdown and calcium loss than women who consumed their usual diets or added other types of plants to their diets.34 By contrast, a meta-analysis of both observational studies and RCTs found no association between bone health and intake of fruits and vegetables.35
- Psychological health: Only a single two-week study has investigated the potential psychological benefits of increasing fruit and vegetable intake in young adults who typically consume very little of these foods. The study participants reported improvements in well-being and motivation but no changes in depressive symptoms or overall mood.36
4. Modern-day fruits: larger, sweeter and widely available
Looking back at the diets of our hunter-gatherer ancestors, it’s clear that humans have been consuming plants (along with animals) for over a million years.37 Roots, leaves, berries and other fruits were readily eaten, but always based on seasonal availability. Today, a simple trip to the grocery store can present us with hundreds of produce options 365 days a year — many of them larger and more visually appealing than ever as a result of advanced farming methods and hybridization.38
Some domesticated fruits have become much bigger and less bitter compared to their earlier counterparts, and most have smaller seeds, thinner peels, and a higher water content, making them easier to eat:
Colossal, easy-to-eat apples, oranges and other fruits deliver more sugar with each piece of fruit — ushering more glucose and fructose into the bloodstream than our bodies may be able to handle effectively.
Should we really be consuming much of these modern-day fruits if we’re concerned about our weight, blood sugar and general health?
Indeed, following a very-low-carb diet containing no fruit at all (other than perhaps minimal amounts of berries on occasion) has been repeatedly shown to help people lose body fat and get their diabetes or pre-diabetes under optimal control.39
5. Can eating fruits and vegetables cause health problems in some people?
Most of us can eat a moderate portion of vegetables without any difficulty. Because they’re higher in sugar, fruits are generally best enjoyed in smaller quantities. However, for some people, both fruits and vegetables may cause issues.
Although there isn’t much published research about sensitivities to specific compounds found in fruits and vegetables, plenty of personal stories can be found online about some of the more common ones, including:40
- Salicylates: Although harmless for most of us, salicylates are chemicals found naturally in certain foods and also synthetically produced for use in medications like aspirin and other products. Ingesting them can lead to asthma, nasal discharge, and digestive issues in susceptible people.41 Fruits and vegetables high in salicylates include berries, oranges, pineapples, apricots, broccoli, cucumbers and zucchini.
- Oxalate: People who suffer from kidney stones may find that their symptoms worsen after consuming fruits and vegetables high in oxalate.42 Spinach contains much more oxalate than any other vegetable, but rhubarb, beet greens, kale and other leafy greens also contain large amounts.
- Histamines: Your body releases histamine on its own as part of an immune response, but in people with excessive levels or an inability to break it down, histamine can cause symptoms like hives, abdominal pain, asthma and headaches, among other symptoms.43High-histamine foods include eggplant, spinach, tomatoes, sauerkraut, and avocados.
- FODMAPS: This is an acronym for fermentable oligosaccarides, disaccarides, monosaccarides and polyols. Essentially these are all fermentable sugar molecules, found most often in fruits, vegetables and grains, that can cause digestive upset in people with Irritable Bowel Syndrome (IBS). People with IBS often find reducing or eliminating FODMAP foods greatly improves their symptoms.44
If you suspect you may have one of these sensitivities, keep in mind that processed, canned and fermented foods also contain some of these compounds. Moreover, your symptoms might be due to another health problem. Make sure to see a doctor for a full work-up to rule out other causes.
6. Will a diet devoid of fruits and vegetables lead to nutrient deficiencies?
Many people feel that fruits and vegetables are indispensable for health because they provide important vitamins and minerals. While it’s true that they provide a range of micronutrients, other minimally processed foods can help meet your needs. Meat, fish, and dairy provide as many (or more) essential vitamins and minerals as fruits and vegetables do, and organ meats like chicken liver and beef kidney are excellent sources of vitamin C.
In fact, there is evidence that we may need less vitamin C on a low-carb diet because glucose competes with vitamin C receptors; the more sugar or carbs you eat, the more vitamin C you might need in your diet.45 That said, it may be difficult to consistently meet your nutrient needs for vitamin C, potassium, folate and other key nutrients on an entirely produce-free diet.
What about fiber? Although fiber isn’t an essential nutrient, many health organizations recommend a daily minimum of 25 grams per day for adults. Of course, fruits and vegetables aren’t the only source of dietary fiber; nuts and seeds also provide some. However, the amount of fiber we actually need has been a hotly debated topic within the low-carb and keto community for some time. And to date, studies demonstrating fiber’s health benefits have been in people eating higher-carb diets.46
Recently, ketogenic experts Dr. Steve Phinney and Jeff Volek PhD wrote a post on their Virta Health blog explaining that although high fiber intake may be important for people who don’t follow a ketogenic diet, fiber needs may be greatly reduced for those of us in nutritional ketosis. 47 They point out that the ketone body beta hydroxy butyrate (BHOB) can help nourish the cells lining your large intestine because it’s very similar to the chemical butyrate produced by the gut microbiome when it digests fiber.48
7. Summary – fruits and vegetables: Optional, optimal, or essential?
In summary, fruits and vegetables are whole foods that provide vitamins, minerals and fiber, along with other potentially beneficial compounds like phytochemicals. In addition, many people — although certainly not all — genuinely enjoy the taste and texture of keto-friendly fruit and veggies, especially when combined with a fat or a tasty sauce. Think creamed spinach, zucchini noodles with alfredo sauce, or berries with high fat cream.
Moreover, there’s no question that replacing processed foods high in added sugar and refined carbohydrates with fresh fruits and vegetables is a healthy move.
It’s possible that fruits and vegetables may play an independent role in reducing disease risk. In the case of cruciferous and leafy green vegetables, it seems likely. However, there’s a limited amount of high-quality evidence on this, and much of it is conflicting. The observational research is much larger in volume but can’t be relied upon due to extremely weak correlations and a likely “healthy user” bias.
Aside from phytochemicals (and vitamin C, if organ meats aren’t consumed), fruits and vegetables don’t contain any nutrients that can’t be found in other minimally processed low-carb foods. And since there’s a lack of high-quality evidence on the role that phytochemicals play in human health, at this time we can’t say with certainty that eating fruits and vegetables is absolutely necessary for everyone.
On the other hand, including vegetables — and in some cases low sugar fruit like berries — probably makes sense for most people. Yet the optimal amounts to consume are unknown, and they likely vary from person to person. Some of us thrive on a diet that includes several servings of produce a day, while others seem to do best with minimal amounts.
On a keto or low-carbohydrate diet, low-sugar fruit and vegetables should be consumed based on personal preference, metabolic goals, and individual tolerance. Across-the-board recommendations to include five or more servings of produce every day, especially when the types aren’t specified, isn’t based on strong evidence.
Source: Article by Franziska Spritzer, RD, CDE; Medical review by Dr. Bret Scher, MD (https://www.dietdoctor.com/low-carb/fruits-and-vegetables)
Many of us may be considering “burning some fat” so we feel better in our bathing suits out on the beach or at the pool. What does that actually mean, though?
The normal fat cell exists primarily to store energy. The body will expand the number of fat cells and the size of fat cells to accommodate excess energy from high-calorie foods. It will even go so far as to start depositing fat cells on our muscles, liver and other organs to create space to store all this extra energy from calorie-rich diets – especially when combined with a low activity lifestyle.
Historically, fat storage worked well for humans. The energy was stored as small packages of molecules called fatty acids, which are released into the bloodstream for use as fuel by muscles and other organs when there was no food available, or when a predator was chasing us. Fat storage actually conferred a survival advantage in these situations. Those with a tendency to store fat were able to survive longer periods without food and had extra energy for hostile environments.
But when was the last time you ran from a predator? In modern times, with an overabundance of food and safe living conditions, many people have accumulated an excess storage of fat. In fact, more than one-third of the adult population in the United States is obese.
The major problem with this excess fat is that the fat cells, called adipocytes, do not function normally. They store energy at an abnormally high rate and release energy at an abnormally slow rate. What’s more, these extra and enlarged fat cells produce abnormal amounts of different hormones. These hormones increase inflammation, slow down metabolism, and contribute to disease. This complicated pathological process of excess fat and dysfunction is called adiposopathy, and it makes the treatment of obesity very difficult.
When a person begins and maintains a new exercise regimen and limits calories, the body does two things to “burn fat.” First, it uses the energy stored in the fat cells to fuel new activity. Second, it stops putting away so much for storage.
The brain signals fat cells to release the energy packages, or fatty acid molecules, to the bloodstream. The muscles, lungs and heart pick up these fatty acids, break them apart, and use the energy stored in the bonds to execute their activities. The scraps that remain are discarded as part of respiration, in the outgoing carbon dioxide, or in urine. This leaves the fat cell empty and renders it useless. The cells actually have a short lifespan so when they die the body absorbs the empty cast and doesn’t replace them. Over time, the body directly extracts the energy (i.e., calories) from food to the organs that need them instead of storing it first.
As a result, the body readjusts by decreasing the number and size of fat cells, which subsequently improves baseline metabolism, decreases inflammation, treats disease, and prolongs lives. If we maintain this situation over time, the body reabsorbs the extra empty fat cells and discards them as waste, leaving us leaner and healthier on multiple levels.
Source: Article by David Prologo, Associate Professor, Department of Radiology and Imaging Sciences, Emory University (https://theconversation.com/how-does-your-body-burn-fat-97813)
Lactation us a phenomenon that is purely controlled by hormones. These hormones are growth hormone, parathyroid hormone, insulin, estrogen, progesterone and prolactin. When pregnant, the placenta secretes a tremendous amount of estrogen which stimulates the breast ducts to grow and branch, and also extra fatty tissue develops in the breast. Growth hormone, prolactin, adrenal glucocorticoids and insulin also contribute to ductal development. The final development of breasts into milk-secreting organs also requires progesterone, which is also supplied by the placenta. Estrogen and progesterone have a synergistic effect in inhibiting the actual secretion of milk. The hormone prolactin however, promotes milk secretion. Prolactin is secreted by the mother’s anterior pituitary gland. It rises steadily from the fifth week of pregnancy until the birth of the baby. It reaches levels ten to twenty times above the normal non-pregnant levels.
From the last few days before the baby is born, until the first few days after birth, colustrum is secreted. Colustrum contains the same concentrations of proteins and lactose as milk, but almost no fat. Right after the baby is born and there is no more placenta, this causes a sudden loss of estrogen and progesterone in the mother’s body. This sudden drop in progesterone and estrogen allows the prolactin from the mother’s pituitary gland to do what it is naturally meant to do; promote the production of milk. Therefore, over the next one to seven days, the breasts progressively begin to secrete copious amounts of milk instead of colostrum. The continuous secretion of milk requires an adequate background secretion of most of the mother’s other hormones apart from prolactin. The most important of those hormones being cortisol, parathyroid hormone and insulin. They are all essential to provide the amino acids, fatty acids, glucose and calcium required for milk formation.
Prolactin levels return to basal levels (pre-pregnancy levels) during the next few weeks after giving birth. However, everytime the mother breastfeeds, nipple stimulation causes a one to twenty fold surge in secretion of prolactin that lasts for about one hour. This prolactin also serves to keep the mother secreting milk which is stored for subsequent breastfeeding sessions. The surge of prolactin needed for maintenance of breastfeeding can be absent or blocked if there is damage to the hypothalamus or pituitary gland, or if she stops breastfeeding for as little as one week or so. Milk formation normally decreases considerably after seven to nine months, which contributes to one of the reasons mothers are advised to start weaning their babies onto other foods at about six to seven months.
The composition of breastmilk is as follows:
- 88.5% water
- 3.3% fat
- 6.8% lactose
- 0.9% casein
- O.4% lactalbumin and other proteins
- 0.7% ash (contains calcium and other minerals)
- Various antigens and anti-infectious agents that provides an immunological protection that cow’s milk does not, because the cow’s protective agents are destroyed within minutes in the internal environment of the human being.
Mother’s have the ability to form up to 1.5 liters of milk each day, and even more if they have twins etc.. This causes a significantly great amount of metabolic substrate to be drained from the body daily. For example, about 50g of fat from the mother enters the milk each day. The mother’s body must convert glucose to provide about 100g of lactose daily. Also, the mother may lose about 2-3g of calcium phosphate daily to provide adequate amounts in breastmilk. This loss is mitigated only if the mother is drinking large quantities of milk and has adequate daily vitamin D levels through diet and sunlight. However, the average output of calcium and phosphate of breastfeeding mothers most often is much greater than the amount the mother ingests. Therefore, the consequences of breastfeeding to a mother are greatly enlarged parathyroid glands and progressive decalcification of bones, which can be a distinct problem during lactation.
With all this, it can be seen how a carnivore diet can especially be quite beneficial for breastfeeding moms. The carnivore diet provides more than adequate amounts of protein and healthy fats needed for optimal hormone production in the mother. It also ensures that she has more than enough macronutrients, vitamins and minerals to guarantee that lactation and nursing does not become excessively draining on her body. Mother is happy, therefore baby is happy as well. Even though carbohydrate ingestion is very minuscule on a carnivore diet, moms can remain assured that they will produce enough glucose in their own bodies to ensure adequate amounts of lactose for baby. This is because the human body has the capability of producing its own glucose via gluconeogenesis. This process is demand driven, and both protein and fats are substrates that are utilized in gluconeogenesis.
There have not been studies that document the effects of fasting on breastfeeding, due to the ethical issues that may arise from such a study. However, because of the physically draining nature of breastfeeding, common sense would dictate that fasting while breastfeeding may not be a good idea. What about intermittent fasting? Unless a mother is sure that during her eating window she can ingest enough food for her daily requirements and offset daily losses, then the best thing to do will be to not fast, unless fasting cannot be avoided. Remember, there is a time for everything under the sun. The time of exclusive breastfeeding is not the time to be fasting as it will affect both milk quality and quantity, as well as the mother’s overall wellbeing. However, after six to seven months when the baby is not requiring all its sustenance from only breast milk, it may be ok to introduce some form of intermittent fasting.