Permaculture Principles by PermacultureVisions.com[1]:

Relative location

Aim to position elements in the design so that there is minimal transport between them.  Use natural forces where possible to work for you. (Eg. Leaves carried by the wind can fall directly onto mulched garden beds.  Rainwater can be collected and fed into nearby ponds and watering troughs. Sunlight can warm the wall behind seedling trays.  In this diagram, composted manure from the hens falls to the worms below).

Multiple functions for each element

Each Element in the design should be used and positioned to perform a range of functions.  For Example: a tree is planted to provide food, mulch, and shelter for the garden or house, soil conditioning, water harvesting.  Another example: A driveway for vehicles can also be used to harvest water, and low growing plants can be planted onto the centre strip of the driveway. The vehicle will control their spread.  (Avoid eating from plants near roadways as they may harbour toxins from fumes and spills, but the plants can serve as plant stock for propagation and have other uses.)

A hen house may also serve as a compost bay, water collection, wind break, tool storage and worm farm.  In this photo from Bungendore, Kate Ferguson has the hen house insulated by and supporting a vine.  It sits over a dry dust-bathing area and is a wind break and frost deflector for delicate plants.  The hen house is a structure capable of performing many functions.

Stress-free Yield

By giving each element several functions we accept that not all the functions can be performed all the time.  The duck can choose to forage for snails or to sit on the nest, to swim, to bathe, to mate or to shout out at strangers.  Eggs per duck are lower than in forced conditions but the sum of all the functions is greater (weed control, pest control, fertiliser).

Multiple elements for each function

Try to satisfy a function with more than one element:

Some examples are:

        Cooling created by shade, trickling water and thermal mass of path and pond walls.  This is an ancient form of air-cooling.  See the photo of a pre-Roman garden in Cordoba, Spain.

        Use a tent of branches as well as a low windbreak of oats; and a planting of nurse trees to protect frost sensitive trees.)

        Rely on more than one means for water collection during dry periods.  Rainwater tanks, condensation traps, in-ground collection such as swales and rain pits).

        Use a combination of security measures for poultry against dogs and foxes such as a warren of sticks to hide in, geese to ward of animals during the day and fencing and housing.

        Use different means of support for a fence such as metal stakes interspersed with wooden poles made from woody weeds and plant a living fence.

Energy Efficiency

Use existing physical materials to maximum potential: share resources such as cars, support local transport, build structures that can work to shelter the garden as well as store heat for night time, require minimal energy in maintenance, and are durable.  Avoid abandoning ideas, technology, machinery or computers that are not competitive without first examining ways to update/expand and increase their efficiency.  Many users do not use their equipment to full potential, they are still learning the potential of the current one while considering a new model.

Biological resources

Maximise the use of biological and physical materials.  Consider the full life of the product.  Search for biodegradable alternatives that can be used as mulch or compost at the end of their first use.  A wide-spreading tree is a more efficient use of resources for a shade house than one made of wood and nails.  In the photo of the promenade at Notre Dame Paris, the trees form a durable, seasonally adjusting, air filtering shade.  In the narrow streets of El Bosque in Spain, citrus trees are the posts to guide to cars, their trunks are painted white and flowers grow at the base (see photo).

Energy Flow

Design to capture existing energy flow E.g. Wind, wave solar or running water.  This is discussed in Energy.  Even animals can be guided into narrow paths that serve to compact and stabilise slopes on contour.)  Minimise the need for human energy input.  In El Bosque, Spain there is a large fish farm (see Aquaculture) that uses the natural water flow to channel water to the ponds and breed the fish. We can position chickens to distribute mulch, or to weed an area.  We can plant deciduous trees up slope so the leaves fall as mulch where required.  Let nature do the work.

Natural Succession

Imitate nature in your plans to help a system evolve to meet your needs.  Eg: You could allow the grasses to become seeded with herbs and flat ‘weeds’, grow tall grasses and pioneer species that act as green manure (Oats, Wheat, Sorghum) to protect young climax species (eg. fruit trees) from frost and insect attack.  This is discussed further in Cultivated Ecology.  A social example would be to glean the wisdom of our elders (canopy and support species), be active in social or professional guilds (companions and guild people) and seek a niche for our talents (a place in a complex society) explore opportunities as they appear (as in the forest when the canopy opens and new light appears).

Diversity

Aim to include a variety of species of food plants or animals.  Diversity in nature builds resilience and resistance to pest attack.  It also lets us find which variety works well in our own particular climate and microclimates.

Stacking

This concept aims to maximise the productivity of a system.  A food forest can have numerous layers: 

   Bulbs such as onions, ginger, carrots, turnips, beetroot;

   Low grasses such as sedges, wheat, oats, and

   Tall grasses like corn banana, arrowroot, cassava, cardamom;

   Ground covers such as pumpkin, Warrigal greens;

   Fungi such as Mushrooms, growing in the mulch beneath

   Herbs such as lettuce, spinach, parsley, celeriac; 

   Shrubs such as  wormwood, currants and bramble berries; 

   Small trees such as Macadamia, feijoa, carob, avocado, oranges, small fig;

   Epiphytes and Aerial plants hanging on trees and in branches.  They include stag horn ferns, bromeliaeds, orchids, mosses and epiphiliums with edible fruit.

   Vines such as Kiwi fruit, grape, passionfruit.

   Climax Species such as Lilly Pilly, Mulberry, Plums, Oaks, Ice cream bean, and Nut trees.

   Parasitic plants such as figs, mistletoe.

Appropriate Technology

Maximise the use of a technology by sharing or having it work to full potential without overload. Choose the simplest and most effective technologies.  Consider the Bicycle, one of the simplest technologies, the bicycle, can be made even more efficient with the addition of baskets.  Bicycles are the most efficient form of transport throughout the cities of the world.  They romantically amble in Paris and sleekly charge in Germany! 

In the photo is a simple shade devise made from local materials employing local manufacturers.  The Shade cuts light and reduces heat and permits airflow.

Information and Observation replaces Energy

Look for the best fit between means and an end. Eg. Our Intensive systems are more productive, diverse and can be positioned with little waste involved in transporting produce to consumer.

Early in the implementation of our permaculture design we constructed a mandala garden on a gentle slope.  The neighbour’s feral chickens attacked the plants’, lifted the deep mulch, and destroyed the paths.  We re-built the garden and again it was attacked.  Finally, we solved the problem of the feral chickens (by feeding them) and left the plants where they were.  Of course the plants had become more densely situated at the lower edge, these plants acted as a mulch trap, water also collected in the mulch there.  The path ended up on contour [2] rather than perfectly central. Many plants are still self-seeding prolifically.   In essence, we had decided to work with natural energies, we reduced human energy into that site and have a more productive site.

Robyn Tredwell became Australian Rural Woman of the Year 95-96, after 10 years work she became a phenomena, her station finally became profitable and her work has inspired many others.  Most of her success is linked to her keen sense of observation, she read much about other peoples practices, but few were in her same situation.  Her station is in the Northern Territory of Australia, a tropical climate with wet and dry seasons.  Her soil was compacted, denuded and full of invasive and dominating native and introduced species.  She observed that she could use the weeds to regenerate the soil so that more desirable species could be introduced; she then went on to use the resources she had at hand, namely the cattle to weed and spread the seed.

Aim for optimum production with minimum intervention.

Context

Work with the natural and social energies within the landscape.  Fit the design into its surroundings.  Look at the wider social environment as a key to what will work.  At the steps of parliament house, Berlin (The Reistag), there is a grassed area that is designed to withstand wet conditions and high pedestrian traffic (see photo).  It works with nature and provides for the needs of the people. 

Another example can be seen when planting expensive crops in poor regions.  These require more human intervention (in the form of security).  Whereas a design that considers the social environment involves the community; provides work; and shares the profits.