In response to the unsustainable practices and negative externalities of the modern industrial monocrop agriculture complex, there has been growing interest in permaculture and food forests as a sustainable way to produce food. Permaculture is a philosophy and set of practices that aims to create regenerative ecosystems that are self-sufficient and promote biodiversity. Food forests, also known as forest gardens, are an example of a permaculture design that mimics the structure and function of a natural forest ecosystem.
So, what exactly is a food forest? Essentially, it is a type of agroforestry system that combines fruit and nut trees, shrubs, herbs, and perennial vegetables to create a diverse, low-maintenance food production system. The idea is to mimic the layers of a natural forest, with a canopy layer of tall trees, an understory layer of shorter trees and shrubs, a herbaceous layer of groundcovers and herbaceous plants, and a root layer of bulbs, tubers, and other perennial vegetables.
The goal of a food forest is not just to produce food, but to create a self-sustaining ecosystem that benefits both humans and the environment. By using permaculture principles like companion planting, nutrient cycling, and species symbiosis, a food forest can increase productivity and resilience while reducing the need for external inputs like pesticides and fertilizers.
One key aspect of food forests is the use of species symbiosis, or the interdependent relationships between different species in an ecosystem. In a food forest, each plant plays a specific role in the ecosystem, whether it is fixing nitrogen, providing shade, attracting pollinators, or repelling pests. By selecting plants that complement each other and create mutually beneficial relationships, a food forest can become a thriving, diverse ecosystem that supports a wide range of species.
Another key principle of permaculture and food forests is the idea of “stacking functions.” In other words, each element in the ecosystem should serve multiple functions to maximize productivity and efficiency. For example, a fruit tree can provide shade for an understory crop like berries, while also producing food and providing habitat for birds and insects. These species may act as predators to crop destroying pests.
Here are a few examples different species relationships that can be used in a permaculture food forest:
Nitrogen-Fixing Plants and Fruit Trees: Nitrogen-fixing plants like legumes capture nitrogen from the air and convert it into a form that other plants can use. By planting nitrogen-fixing plants in and around fruit trees, the trees can benefit from this natural source of fertilizer. In return, the trees can provide shade and support for the legumes, creating a mutually beneficial relationship.
Pollinator Plants and Fruit Trees: Most fruit trees require pollinators to produce fruit. By planting a diverse mix of pollinator-friendly plants like clover, borage, and comfrey around fruit trees, the food forest can attract bees and other beneficial insects that will help pollinate the trees. At the same time, these plants can provide habitat and food for a wide range of other beneficial insects and birds.
Pest-Repelling Plants and Companion Plants: Some plants have natural pest-repelling properties that can help protect other plants in the food forest. For example, marigolds are known to repel pests like nematodes, while garlic and onions can help repel pests like aphids and spider mites. By planting these plants in and around other plants that are susceptible to pests, the food forest can reduce the need for synthetic pesticides.
Groundcover Plants and Trees: Groundcover Plants: Strawberries, clover, and mint can help prevent soil erosion and retain moisture in the soil. By planting these plants around fruit trees and other tall plants, the food forest can create a natural mulch layer that will help retain water and nutrients in the soil. At the same time, the groundcover plants can provide food and habitat for a range of beneficial insects.
Food forests are also designed to be low-maintenance and require minimal inputs once established. By using perennial plants that come back year after year, a food forest can reduce the need for tillage and other soil-disturbing practices that can damage the ecosystem. And by mimicking the structure of a natural forest, a food forest can take advantage of natural processes like nutrient cycling and water retention.
Food forests are a promising example of how permaculture principles can be applied to agriculture to create sustainable, diverse ecosystems that benefit both humans and the environment. By using species symbiosis, stacking functions, and other permaculture techniques, food forests can increase productivity and resilience while reducing the need for external inputs and minimizing negative impacts on the environment. As we continue to face growing challenges in food production, food forests offer a promising alternative that can help us build a more sustainable future.
If you are interested in developing a food forest on your property, call Tannenbaum Design Group today and let’s start planning your garden and dinner table today!
Jacke, D., & Toensmeier, E. (2008). Edible forest gardens. Chelsea Green.
High quality and well-designed landscapes and gardens can significantly increase the value of homes in New York City. According to a study conducted by the National Association of Landscape Professionals, a well-maintained landscape can increase the value of a home by up to 15%. This equates to an average increase of $23,000 in value for a home in New York City.
Additionally, a well-designed landscape can also increase the return on investment for homeowners. Landscaping can have a return on investment of up to 200%, making it a smart investment for homeowners looking to increase the value of their property.
If you have been thinking about making landscape improvements to your backyard, front yard, rooftop or terrace – you won’t just be improving your quality of life, but the value of your asset as well. Well-designed landscapes and gardens are proven to significantly increase the value of homes in New York.
Beautiful landscapes and gardens can also significantly increase the value of homes in Colorado. According to a study by the National Association of Realtors, a well-maintained landscape designed by a Landscape Architect increased the value of a homes sold by an average of 12%. This equates to an average increase of $20,400 in value for properties across Colorado.
Additionally, landscaping can also increase the return on investment for homeowners. The return on investment for landscaping can be up to 200% of the capital invested in the improvements, depending on the type of improvements made and the overall value of the property.
Without question, well designed landscapes and gardens can significantly increase the value of homes in Colorado, with an average increase of $20,400. There is significant value in a high-quality landscape design.
Poor Quality Landscapes
The value spread of a high-quality landscape design vs a poor one is quite significant. Studies put into perspective the impact poorly designed outdoor spaces and curb appeal can have in a home sale. A study by Trees.com shows property values can decrease by up to 30% due to poor landscaping alone. The website surveyed 1,250 real estate professionals for its study.
Contact us to get a quote and start building value and enjoyment into your home and today!
Life After Life(LAL) empowers deathcare as a way of bringing new life to distressed communities. LAL is a new model of regenerative development for the future of people and the planet. LAL takes difficult-to-reuse, abandoned properties and transforms them into public park amenities. These parks are supported in perpetuity through conservation easements, public incentives, sustainable celebrations-of-life, and peripheral land development, in order to preserve the public amenities and historic legacy of communities for generations to come.
LAL parks support underserved communities and remediate pollution, providing them significant physical and mental health benefits.
LAL parks protect biodiversity, create more resilient communities, and combat climate change.
LAL parks replace defunct property, bringing new life into distressed communities, while offering a sustainable alternative to the notoriously toxic and unaffordable options available for end-of-life care today.
As a nonprofit organization, Life After Life Foundation is working to change the perspectives around end-of-life and the motivations for planning ahead on their head. The fact of the matter is, only 30% of Americans have any plans at all for how they would like their body to be treated in the end. This has perpetuated a very destructive and exorbitantly expensive funeral industry to continue.
Reflected in their Motto, ‘One Last Good Deed’. – Life After Lifeoffers the customer the priceless value that a loved-one’s loss, can be a part of something bigger. They provide the opportunity for a person’s last choice to contribute to healing the planet – leaving things better than they came. Additionally, they hope to bring people together through placemaking, regenerative development and community building activities pre-time-of-need, something completely lacking in the traditional funeral and cemetery industry.
Through the acquisition and transition of abandoned property into a public good, LAL brings new life to distressed communities. Many of our lowest income urban communities suffer from a preponderance of polluted brownfields and a scarcity of greenspace. These brownfields often lie abandoned because the market incentives to remediate them are too low for conventional development. While the public sector may lack the finances to remediate them and build the public amenities that the community and environment needs, Life After Life is able to transition the dilapidated land into healthy and beautiful regenerative development memorial parks.
The greening of vacant urban land has been shown to reduce crime. Domestic violence in particular has been found to be 25% less prevalent in nature rich housing developments. Cleaning and greening vacant lots has led to a 9% reduction in gun assaults. In Baltimore, MD, 10% more tree canopy was found to reduce crime by 12%.
Studies show that outdoor learning delivers many benefits — reducing stress, improving moods, boosting concentration, and increasing a child’s engagement at school. Simply having more tree cover in a neighborhood can account for as much as 13% of variance in student outcomes. Exposure to nature provides the opportunity to teach the natural sciences hands-on, builds empathy for nature and an interest in STEM and regenerative development.
Hospitals with a view of nature recover more quickly and require less painkillers than those without. Tree leaves absorb 95% of all ultraviolet radiation and 75,000 tons of harmful air pollutants annually. Parks induce exercise in communities, particularly for lower income populations. Nearly 80% of Americans report using local recreation services such as parks.
People who have spent at least two recreational hours in nature during the previous week report significantly greater health and well-being. Low levels of green space exposure during childhood increase the risk of developing mental illness by 55% higher than for those who grow up with abundant green space. Women living in the highest percentile of green space around their home have a 12% lower mortality rate than women living in the lowest percentile. Short term memory is improved by 20% from walking in nature.
Neighborhoods in a highly-developed city can experience temperatures 20°F hotter than rural areas. Extreme urban heat is a public health threat. It amplifies air pollution, increases energy consumption, and can cause serious harm to those working outside or without air conditioning. Parks and trees can decrease temperatures up to 45°F, providing cool and safe spaces for residents.
City parks strengthen local economies and create job opportunities. Parks attract residents and businesses, increase revenue for cities, spur private investment, and increase job opportunities. In Denver, $1.2 million in federal park grants resulted in over $2.5 billion in local public and private investments. Riverwalk Park in San Antonio, created for $425,000, is now lined with outdoor cafes, shops, bars, art galleries, and hotels, and has overtaken the Alamo as the most popular attraction for the city’s $3.5-billion tourism industry. Retail revenues generally are found to be 30 percent higher in districts with trees.
Rising temperatures and rampant habitat destruction threaten species today at unprecedented levels. Evidently, 18 million acres of forest are lost every year. More than 600 species are estimated to start going extinct every century – increasing the need for regenerative development.
There are likely over half a million ‘brownfields’ in the U.S. alone. Conventional brownfield remediation, or the act of removing debris from a site and moving it to a landfill, is ineffective and inefficient. The nature-based solutions of phytoremediation and bioremediation remove these harmful pollutants from the soil and water with permanence.
Mental and Physical Health:
Nearly one in five U.S. adults live with a mental illness today. 7.74% of adults in America reported having a substance use disorder in the past year. In the last 20 years, the prevalence of obesity increased by approximately 40% and severe obesity almost doubled. A growing body of epidemiological evidence indicates that greater exposure to natural environments is associated with better health and well-being in urbanized societies. Living in greener urban areas is associated with lower probabilities of cardiovascular disease, obesity, diabetes, asthma hospitalization, mental distress, and ultimately mortality, among adults; and lower risks of obesity and myopia in children. Greater quantities of neighborhood nature are associated with better self-reported health, and subjective well-being in adults, and improved birth outcomes, and cognitive development, in children.
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Your membership with Life After Life Foundation means no less than 30 new square feet of habitat gets built and maintained for generations to enjoy.
Don’t wait to make a good plan. Join an event filled community, immortalize your history, and rest easy knowing you have a beautiful final resting place waiting for you, whenever your time is up.
Agroforestry is an agricultural methodology that optimizes production by exploiting the benefits of interspecies interactions. By deliberately combining trees, shrubs, perennials, annuals, or livestock, a grower can enhance their farm economically, ecologically, and environmentally. In juxtaposition to popular monocultural farming practices, agroforestry reestablishes the complexity of time, place, and biodiversity that plants experience in the wild. From a sustainability perspective, it can serve as a bridge between natural resource management and agriculture, in a world that is in dire need of a better relationship between the two.
Agroforestry can be divided into several categories: Riparian Vegetative Buffer Strips, Intercropping, Sivopastoral, Windbreaks, and Forest Farming. Each represents a different circumstance in which agroforestry can provide benefit, ultimately with the same symbiosis methods at their core.
Riparian Vegetative Buffer Strip Systems are the establishment of agroforestry plantings along stream and riverbanks to protect aquatic habitats and reduce nonpoint source pollution in waterways.
Intercropping Systems are the planting of widely spaced trees with conventional crop rows in between allowing for diversified farm income, the abatement of soil erosion, mitigation of nutrient loading, and the protection of watersheds.
Silvopastoral Systems are the combination of trees and livestock as a means of maximizing the land for economic, wildlife habitat, fire protection, and forest management benefits.
Windbreak Systems are the simple and more commonly seen practices of today. Windbreaks are plantings around the perimeter of a field used to protect and enhance the production of crops and animals while creating environmentally more stable microclimates.
Forest Farming is the development of microenvironments resembling natural forest stands that look to mimic nature throughout a farm. Forest Farming develops suitable environments for growing specialty crops within its shaded settings.
Agroforestry offers a wide variety of both localized and macro benefits for the farm and the greater landscape. On a macro level, Agroforestry practices can increase productivity during successional changes, decrease weed competition, increase internal regulation, increase biological regulation of insect pest, increase solar radiation usage efficiency, increase soil organic matter, increase biodiversity, decrease agriculturally derived contaminants in riparian zones, decrease wind and water erosion, increase the uptake and fixation of carbon dioxide from the atmosphere, and increase the retention of nutrients in soils.
For the farmer, Agroforestry offers a variety of crop production benefits. Foremost are the benefits of wind damage protection. The creation of woody corridors traps windborne particles and slows windspeeds across sites. Small seeded, shallow sown, and newly emergent crops are particularly susceptible to wind and sandblast damage. Additionally, orchard fruit crops are often compromised from wind as well – which can cause the desiccation of petals and pollen loss as well as fruit drop, bruising, and scaring. Further, research indicates that livestock also benefit from the wind protection, with studies indicating that feed needs are decreased by up to 20% by offsetting the cold wind temperatures. Similar studies indicate benefits to livestock such as decreased newborn losses, increased cattle weight gain, and increased milk production as well.
Agroforestry offers erosion mitigation benefits as well in the form of wind and water erosion protection. It is estimated that conventional monocultural farming practices can result in the loss of five tons of soil per year per acre. A problem that agroforestry practices greatly eliminate. By retaining soil organic matter, farmers can greatly reduce or even eliminate their need for commercial fertilizer.
When using commercial fertilizers, Agroforestry practices can greatly resolve the problems of nutrient runoff. Riparian Vegetative Buffer Strips were found to greatly decrease negative externalities from farms, in particular. Forested Vegetative Buffer Strips 90 to 150 feet wide were found to reduce ground water nitrogen content by 68% to 100% and surface water runoff nitrogen by 78% to 98%. Further, Forested Vegetative Buffer Strips are able to reduce phosphorous concentrations in surface water by 50% to 85%. This runoff, when allowed to reach water bodies can have devastating ecological effects, causing life choking algae blooms in its extreme circumstances. Further, the preservation of soil health improves the quantity and quality of the soil microbiome. These resident bacterial and fungi are critical for making nutrients available to plants.
Agroforestry offers other water benefits as well. Locally, Agroforestry practices can increase soil porosity, reduce runoff loss, and increase soil coverage, which leads to higher water infiltration and retention in the soils. This is of particular benefit in drier climates and drought conditions for reducing soil moisture stress on crops. Further, through a process called hydraulic lift, trees with deep roots redistribute deep soil water supplies to higher strata, where other crop root zones can have access during drought.
Agroforestry practices reduce sedimentation in reservoirs as well. Conventional farming results in unnaturally high sedimentation. By mitigating this, reservoir life spans can be extended at a national savings of $200 million.
Additionally, woody corridors have the added benefit, in winter, of increasing water availability through snow capture. This snow capture is also important as insulation preventing winter kill of more sensitive perennial crops.
Agroforestry practices overall act as valuable climate modulators. These forested settings better moderate against extreme temperature fluctuations that can be very destructive to crops. Agroforestry farms have higher humidity, soil moisture, nighttime CO2 levels, and lower nighttime air temperatures compared to their conventional monoculture counterparts. These regulatory effects were found to increase crop productivity 10% to 25% in dry climates.
It is estimated that 18% of all crop loss is the world is due to insect pests. As global warming progresses, this problem is likely only to get worse. Agroforestry practices can impact the pest mitigation aspects of farming in a variety of ways. Through the creation of woody habitat for birds and bats, these spaces can increase the presence of the predators that prey on insect pest in the fields. Though this won’t eliminate pests in their entirety, it helps to keep populations under control.
Additionally, these wooded spaces provide the habitat needed for beneficial insects as well such as arthropod predators and parasitoids who further suppress pest insect populations. These spaces offer stable habitats for reproduction, overwintering, and refuge free from the from perturbations of conventional farming practices. Additionally, reducing wind through farms can also significantly help beneficial insects find and consuming pests. It is estimated that the wind barriers that agroforestry practices provide can improve crop pest reduction by beneficial insects up to 40%. Lastly, Agroforestry practices reduce visibility for pests, decreasing the chances of epidemic by making pests that target a single species less prolific. Overall, these predatory species serve a critical ecological role in the farm. It is estimated that these insects provide ecosystem services worth $4.5 billion per year.
Agroforestry practices can play a critical role in the protection and creation of critically endangered habitats for both aquatic and terrestrial species. In sensitive aquatic areas, the forested zones shade and stabilize stream banks. This reduces erosion while improving aquatic insect habitat, raising dissolved oxygen levels, reducing denitrification, reducing evaporation, and ultimately raising fish population levels. Further, these buffers play an important role in bioremediation, breaking down and capturing chemicals that drift from the farmland, decreasing their ecological destruction effects.
Over 30% of the crops we cultivate for food rely on insect pollinators. These pollinators largely come as wild native bees and European honeybees. Over the last century, due largely to the chemical and habitat destruction practices of industrial farming, populations of these bees have been significantly reduced. The practices involved in conventional monocultural farms are largely incompatible with the needs of many of the 4000 species of North American bees.
Approximately 30% of our native bees are wood nesters that require trees and shrubs for nesting. About 70% create nests underground requiring undisturbed soil away from the tilling of conventional farm practices. Agroforestry is a poignant way to address the habitat needs of both species. Bumble bees for instance, were found to be twice the density in wooded habitats as compared to grassland habitats. By bringing the habitats of these species closer to the crops by better interspersing woodland, fields can experience greater pollination levels and ultimately better crop production.
The many pest reduction benefits of Agroforestry decrease the need for chemical pesticides, commonly used in conventional farming. These chemicals wreak havoc on bees through direct contact and inadvertent spray drift. With the ecological service value of these bees over $3 billion, farming faces a critical need for solutions like agroforestry that can help bring the bee species back from the brink.
Agroforestry offers significant values in regard to air quality improvement as well. In addition to reducing chemical spray drifts up to 90% through woody buffers, Agroforestry farms serve a valuable role as greenhouse gas reducers, smog reducers, particulate catchers, and odor reducers in livestock areas where this can be a major concern.
Beyond the role that Agroforestry plays productively, it also can play a valuable role for the farmer themselves and the local community. First, from a biophilia perspective, agroforestry natural mimicry creates aesthetically pleasing spaces that are psychologically inviting for people. From a real estate perspective, greenspaces are among the top 5 things people seek when choosing a place to live. Greenspaces are proven to raise property values up to 32%. This land value is not shared by spaces juxtaposed to monoculture farms. These agroforestry spaces can play a valuable social role as leisure spaces for walkers, joggers, birdwatchers, and wildlife spectators – improving the quality of life. They also can serve as grounds for hunters as a secondary value.
From a practical perspective, agroforestry systems reduce the need for building snow fences, saving the farmer capital costs. Additionally, the microclimate affects reduce utility costs for dwelling units on site. Lastly, by better holding water on site, overall usage can be decreased. These effects cumulatively, ultimately, lower overall farm expenses.
On a broader scale, agroforestry serves as a means of increasing domestic food security – enabling the production of diverse products locally. Further, research suggests that, if utilized at scale, agroforestry systems could help mitigate climate change through significant carbon sequestration. And lastly, increased forest covering in watersheds can reduce the total amount of runoff from storms and mitigate flooding risks during peak stormflows. In these many ways, agroforestry offers environmental services values that are difficult to quantify.
Though many of the different agroforestry benefits are externalities outside the direct capture of the farmer, many are still measurable as the relate to the economics of the farm. From the broad perspective the values vary greatly as the mixture and effectiveness of agroforestry can vary greatly between different crops’ symbiosis and settings. However, as a mean, agroforestry has been proven to increase overall yields on the average between 6% and 56% – overall, increasing IRR to the farmer 4% to 11%.
However, the landscape of farming is changing. Agroforestry offers several other valuable properties as well. In an increasing labor challenged industry, agroforestry offers flexibility to the farmer that monocropping does not, as all crops do not need harvesting in mass at one time. Further, Agroforestry reduces risk by offering multiple harvest timings and products for sale rather than risking a year on a single yield. This also allows many fixed costs to be spread across a variety of products rather than laying idle for long periods of time.
From a startup perspective, Agroforestry offers a means of creating revenue sooner, rather than waiting years for the first crop as is seen in a conventional orchard. Additionally, it allows for the phasing out of equipment as it depreciates and succession to other crops becomes necessary.
Lastly, from a land scarcity perspective, agroforestry offers better overall utilization of land. This is particularly valuable for islands, for example, that are running up against a delicate balance of natural resource conservation and food security.
Agroforestry faces a number of unique challenges to wide adoption still today. Although there is becoming an ever-vaster databank of resource for learning best practices for agroforestry, there still limited research conducted in the field. Overall, there is little graduate study emphasizing agroforestry. This stems from overall limited employment opportunities in the field and as such limited funding. Given the breadth of the field and its variability across locales, there is a need for more localized testing of the practices.
Public perception holds agroforestry back from wide adoption as well. Generally, people believe that high establishment costs and high management expertise is needed. Many seem to believe that the economic gain would be lower than traditional farming. Others are disinterested in adopting systems whose rotational length may exceed the landowner’s life expectancy. Much of this is misconception only exacerbated by the public sectors disinvolvement, assuming that landowners would be unwilling to follow the land management prescriptions necessary for developing and maintaining agroforestry systems properly.
Public policy overall has a way to go in catching up with the needs of agroforestry becoming the norm. Currently some states offer extensions to the conservation reserve program to compensate farmers for the differences in payments they would have received from non-agroforestry practices. This is neither across the board nor a full compensation for the externalities that agroforestry provides. Currently, agroforesters are excluded from certain programs that are based on tree planting density. Considerations are being made through regarding valuing agroforestry for its carbon sequestration value. The challenge has largely been from organized commodity groups who feel that subsidizing producers entering the market through federally funded programs would give them and “unfair advantage”.
Lastly, agroforestry faces physical challenges as well. Overall, scale and time are necessary for realizing many of the benefits of agroforestry. Additionally, there can be added expenses to undergoing the practice. Sivopastoral systems, for instance, add additional costs for fencing and risk of tree damage from the livestock. Further, in some circumstances, agroforestry practices have been found to exacerbate pest problems by protecting insect pests with alternative hosts, allowing them to rebuild populations and reinvade crop areas the next season.
In 1935, the Dustbowl showed us the consequences of not having any agroforestry practices across the Midwest. In its wake, the Prairie States Forestry Program planted more than 200 million trees as shelterbelts, to reclaim the land ravaged by the Dust Bowl. To a great extent, agroforestry is a return to the old way of farming of ancient times – but this time with more information.
Agroforestry offers a solution to many of traditional farming’s biggest issues today. It can address the climate crisis, the biodiversity crisis, soil depletion, air and water quality, and the struggles of smaller scale farms trying to stay in business. The evidence posits that agroforestry can sustainably increase production per unit of land area while enhancing economic, social, and environmental services. While demand for local and organic specialty crops continues to grow exponentially to support the market, the time for shift has never been better or more necessary. What we need now is a policy environment that recognizes the valuable macro externalities of agroforestry better and compensates farmers for the transition in a manner more appropriate to its true value.
Patel-Weynand, T., Bentrup, G., & Schoeneberger, M. M. (2017). Agroforestry: enhancing resiliency in U.S. agricultural landscapes under changing conditions. Washington, DC: U.S. Department of Agriculture, Forest Service. Retrieved from https://purl.fdlp.gov/GPO/gpo90991
National Agroforestry Center. (2008). Agroforestry: working trees for agriculture. (Sixth edition, 2008.). Lincoln, NE: National Agroforestry Center, USDA. Retrieved from https://purl.fdlp.gov/GPO/FDLP639
Doddabasawa, Chittapur, B. M., & Mahadeva Murthy, M. (2020). Economics and energy potential of traditional agroforestry systems under contrasting ecosystems in semi arid tropics. Agroforestry Systems: An International Journal Incorporating Agroforestry Forum, 94(6), 2237. https://doi-org.proxy.library.cornell.edu/10.1007/s10457-020-00545-y