Five Ways to Make Your Yard More Biodiverse

Olive clubtail dragonfly resting on Mountain ash (Sorbus scopulina).

 

Every 30 seconds in the United States, a football field-sized chunk of natural area disappears due to development, according to research from the Center for American Progress. Most of the natural areas lost in the past two decades were on privately-owned land, which accounts for about 60% of all land in the country. Clearly there’s much work to be done, since only 3% of protected areas in the U.S. are on private land. Currently, only 12% of all U.S. land is protected, which is very bad news for biodiversity. 

Scientists see the goals set by the International Convention on Biological Diversity — protection of a mere 17% of land and 10% of oceans by 2020 — as completely inadequate to handle the Sixth Mass Extinction and the climate crisis. To stop the crumbling of biodiversity — defined as all the organisms on earth, well as the diversity of ecosystems in which they are found, and the genetic diversity within each species — efforts are now behind “30×30”, a global goal to protect 30% of Earth’s land and water by 2030.

President Biden issued an executive order soon after taking office that requires agency leaders to submit input and strategies for how the feds can conserve at least 30% by 2030. Reversing the cuts made by the Trump administration and targeting expansive areas will certainly have the quickest effect, but all important habitat ought to be saved or restored. If you feel hopeless or sickened by the extinction and climate crises made worse by unrestrained development, even a 30 by 30 foot space at home will help. We can’t put it off any longer.

Here are some objectives as you move forward: 

1. Focus on local native plants after removing invasives. There’s nothing terribly wrong with growing a few of your favorite plants—for example, I love certain clematis vines and irises, and I grow organic food to eat. But those plants don’t provide much, if any, benefit for wildlife, so a large portion of the remaining plants I’ve chosen are native species, most of which belong in my area and might grow together in their natural state. Besides being low maintenance (when properly sited), they are absolutely essential to creatures who developed special relationships with them over millennia.

Native species are superior to introduced plants not because they’re trendy or due to some prejudice or because I say so. Simply put, native plants depend on native wildlife and vice versa (when they are in the appropriate place—that is, areas where they evolved together). They’re adapted to local environmental conditions and their value is not based solely as a resource for humans or on appearance (although their beauty is remarkable!).

Plant diversity is strongly associated with species richness, including healthy insect-dominated food webs. As the essential structural and functional base of many of the world’s ecosystems, most insects are “specialists”—they can only survive with certain species of plants that they evolved with (as opposed to “generalist” species that can use many plants). For example, butterflies and moths need certain host plants that provide food for their young, and many native bees forage for pollen only on specific plants at specific times of year. Myriad other insects are able to use only specific native plants; if those plants aren’t around, the insects’ decline or disappearance adversely impacts ecosystems and other animal populations since specialist and generalist insects and other arthropods supply food for other wildlife. Besides habitat destruction and climate chaos, insects are challenged by additional stressors, including insecticides, herbicides, introduced species, and light pollution. To make things worse, stressors often happen simultaneously. A 2019 global review revealed that 40% of insect species could become extinct in the next few decades, with a staggering 2.5% decline in insect biomass per year, and warned of a catastrophic impact on the earth’s ecosystems. In 2020, researchers found that Earth lost more than 25 percent of land-dwelling insects in the past 30 years

Growing natives is an act of compassion for wildlife at our mercy. It helps to think of animals as individuals with emotions and personalities, not just species. Like us, they want to avoid suffering and live a decent life, and most need native plants in order to do so. Animals such as birds and frogs that eat insects directly are of course negatively affected, but other species are as well. Bobcats, for example, are obligate carnivores, but they need native plants since they typically eat animals that consume insects or plant matter. 

Buy plants propagated from source material that originated as close as possible to your site. Using such “local genotypes”  helps ensure that you get plants that are well adapted to your area and preserves the genetic diversity that helps plants (and animals) adapt to changing conditions. Ask growers and nurseries about their sources if you’re unsure.

2. Minimize lawn and be bold when it comes to sizing garden beds. The more space we allocate for native plants, the better. Lawn is an unnatural monoculture that provides almost no support for wildlife, so if it’s not needed, let it go. You can remove it with a sod cutter or spade, but to preserve precious topsoil, cut it short, then cover it with a half dozen layers of overlapping newspaper or a layer of cardboard with holes punched in to ensure drainage. Cover with leaf compost and allow it to break down over many months.

To get ideas for plant selection and how to arrange and space those plants, look to nearby natural areas that support local native plants, inquire with your local native plant society chapter, and check out my book (if you live west of the Cascades). Plant long-lived trees and shrubs for carbon sequestration and habitat, as well as privacy so that unnecessary fencing may be removed, allowing for a contribution to wildlife corridors that connect. Add associated understory plants, including ground covers that offer the best mulch

Speaking of space, growing perennials for pollinators’ sakes means providing at least several plants of the same species that are planted fairly close to each other so that pollinators can easily find them and so there’s enough of a particular flower’s nectar/pollen to go around. But spacing them evenly, in perfect clumps, isn’t necessary and often looks contrived, and lining them up like veggies in a kitchen garden is even worse, aesthetically speaking. Take a walk in a natural area and you’ll find perennials and other plants with an array of spacing—some close together, some further apart; most mingle with other species that they evolved with. Irregular drifts may occur, as if nature took a paintbrush to create rhythmic splashes. Repetition of plant groupings will result in a natural look and more habitat. Be sure to provide at least a couple of species that flower in unbroken sequence from early spring until fall.


3. Avoid pesticides and use organic methods. It’s imperative to not use pesticides (insecticides, herbicides, fungicides, etc.) and chemical fertilizers to prevent harm to beneficial creatures above and below ground at home and prevent toxins from entering waterways and killing downstream. The Environmental Protection Agency has registered more than 18,000 pesticides for use, and more than 2 billion pounds of pesticides are sold every year in the U.S. Pesticides are pervasive in aquatic and terrestrial habitat throughout the country and threaten the survival and recovery of hundreds of federally listed species. They don’t stay put and can kill non-targeted species, decrease biodiversity within soil, are linked to a decline in nitrogen fixation, mess up the complex balance between predator and prey species in food webs, require fossil fuels, and involve heinously cruel experiments on animals. And, the U.N. tells us that about 200,000 people die each year from pesticide exposure. Chemical fertilizers are also very problematic since they kill soil microbes and pollute groundwater and waterways, leading to dead zones, among other damages.

4. Minimize water runoff and maximize carbon storage. There’s much we can do with the water that enters our landscape, and it doesn’t have to take much effort. It may help to think of our yards as mini-watersheds and ask what we can do to make sure the water that leaves our properties is clean and won’t harm other species.

Rain gardens can collect water — from downspouts or hard surfaces where water accumulates — and slow the flow of water, cleaning it as it slowly soaks into the ground and recharges aquifers. Other elements like bioswales, permeable paving, coniferous trees, and even rain barrels can manage water responsibly in our landscapes, reducing runoff that overwhelms storm drains and pollutes waterways. But it’s the plants themselves (along with soil) that effectively filter water and store carbon. Fully and diversely planted gardens — that include long-lived large trees, shrubs and lower plants — are best at cleaning water, preventing runoff, and sequestering carbon; more so than lawn or beds that are mostly wood chips. 

Halictus ligatus on Erigeron speciosus.

Although keeping your soil covered (with plants or mulch) is a good thing for carbon storage, moisture retention and erosion control, always leave some areas with bare soil (fallen leaves and small amounts of light compost are okay), particularly in areas that face south or east. Here’s why:  70% of native bees (such as this “sweat bee,” Halictus ligatus, shown) nest in the ground (the rest raise their young aboveground in cavities, stems, tunnels or crevices). Using thick layers of wood chips, bark dust, or other such substances prevents them from being able to create their nests and if applied after nests are complete, entombs and kills the developing bees.

Also, if you grow veggies, keep tillage to a minimum, if at all. Tilling soil speeds up the decomposition of organic matter, causes erosion, releases carbon dioxide into the air, exposes weed seeds to light, destroys mycorrhizae hyphae, and generally makes soil less fertile. Unnecessary fertilizer will also release more carbon. 

Erosion concerns? Choose native plants with dense, fibrous root systems to control erosion on slopes. In the Pacific Northwest, depending on your location and conditions, consider Douglas-fir, big-leaf maple, vine maple, Oregon white (Garry) oak, madrone, serviceberry, salal,  kinnikinnick, red-twig dogwood, oceanspray, tall Oregon grape and Cascade Oregon grape, western mock orange, red-flowering currant, snowberry, western sword fern, inside-out flower, and many others.

Bushtit nests require moss, spider silk, and other natural substances.

5. Add natural elements and be lazy. Wild species need secure, dry places to spend the winter, pupate, or seek cover during bad weather, and places to raise their young:  (1) Leave the leaves on soil. (2) Include rotting logs and other dead wood in shady spots to supply the perfect home for certain invertebrates and fungi. (3) Introduce brush piles to provide shelter and maybe even nest sites for some birds. (4) If you’ve dug up rocks from your soil, create smooth rock piles or stone walls without mortar to provide cover for wildlife like amphibians and reptiles, as well as arthropods. Making all these elements as large as possible and placing them in quiet areas works best. (5) If you must “clean up,” don’t do it in fall or winter. Instead, wait until late spring and do as little as possible so that those taking cover won’t be disturbed and so that birds can find building materials for their nests, such as moss, lichen, twigs, spider silk, and dried leaves (see bushtit nest, pictured above). If all this sounds messy, it is, but it’s also easy and exactly that characteristic that supports the greatest garden biodiversity! 

Last but not least, give wildlife a drink. All animals — from birds and dragonflies to frogs and salamanders — need water, so include a gently sloping bird bath or more elaborate water feature like a pond, and perhaps a plate full of watery gravel to help creatures thrive. Although the latter is most important during dry weather, birds need water year round to keep their feathers clean and waterproof. Since many urban streams have been buried, wetlands drained, and drought is upon us, it’s the least we can do.

Golden-crowned kinglet and Townsend' warbler.

© 2021 Eileen M. Stark

More Than Flowers: How to Support Pollinators in All Their Life Stages

Many pollinators are in steep decline and in dire need of protection. A black-tailed bumble bee (Bombus melanopygus) feasts on hairy honeysuckle blossom (Lonicera hispidula).
Black-tailed bumble bee (Bombus melanopygus) forages on hairy honeysuckle (Lonicera hispidula).

On the heels of National Pollinator Week — when we honor the hard-working animals who give so much, let’s remember that they need much more than flowers to survive. These fascinating creatures — from bees and beetles to butterflies and moths — face seemingly insurmountable threats, including habitat loss, the climate crisis, and pesticide use. It’s tragic and overwhelming, but there is much that each of us can do as individuals, and together we can have a tremendous influence over potential habitat in everything from tiny urban lots to community gardens to large rural expanses.

Modern landscaping practices essentially strip habitat from our yards. But there are many easy DIY habitat features that can be incorporated — or simply left in place — and they are superior to artificial supports (such as bee hotels) because they break down fairly quickly (which minimizes parasite and disease problems that come with repeated use), and better imitate the natural density of nest sites that keep pollinators healthy. 

In my Pacific Northwest yard I offer a variety of native trees, shrubs and perennials throughout, as well as a mini-meadow where locally native perennials — such as western columbine, fleabane, checker mallow, blue-eyed grass and iris — grow and buzz with life. To be certain they will return next year, I also provide adequate shelter for overwintering and nesting. I leave leaf “litter”, hollow and pithy stems, and dead wood lying around, provide water and brush and rock piles, use no chemicals, and refrain from doing any “clean up” until late spring, to prevent disturbance of overwintering adults, eggs, larvae, or pupa that may be camouflaged within nature’s debris—for example, the strikingly beautiful western tiger swallowtail butterfly may overwinter as chrysalis (pupa), which looks like a little piece of dead wood during that time. 

At home, here are a dozen easy things we can do to support a variety of pollinators, from bees, moths, and butterflies to beetles and flies

~ Leave parts of your garden a little “wild.” Undisturbed shelter and nesting locations are absolutely essential, and gardens that are a bit messy and provide brush and log piles, mounds of rounded stones, as well as patches of bare, well-drained, undisturbed soil will help.

Put away that leaf blower and allow fallen leaves, twigs and bark to remain undisturbed on the ground so that butterflies and moths can make it through the winter either as eggs, caterpillars, chrysalises, or adults, and so that bees such as queen bumble bees can slumber peacefully under a leafy blanket; leave a very light layer on any lawn you have, too. Besides pollinators, many other wild ones live or overwinter in leaves, including beetles, spiders, snails, and worms, all of which are beneficial and/or support the birds, small mammals, reptiles and amphibians who need them for food. An added benefit is that detritus from trees and shrubs insulate plants’ roots, suppress weeds and retain moisture just as well as wood chips or other mulches (that may contain invasive species) but allow for ground-nesting.

For the numerous species of native ground-nesting bees (70% of bees nest in the ground in burrows), supply a generous amount of undisturbed and bare soil. Avoid tillage and anything that prevents access to soil, like plastic mulch, landscape fabric, or thick layers of mulch, including wood chips and bark mulch. Natural fallen (whole) leaves, small pebbles, and light layers of compost are fine. If you must remove some leaves in the spring, wait until late spring to prevent disturbance to species who emerge fairly late.

Nest sites for the other bees that nest aboveground — in stems or tunnels within decaying wood — can be augmented by placing hollow or pithy stems, or downed wood (with or without dead-ended, narrow holes drilled into them) on or above the ground. Bumble bees typically nest in pre-existing cavities such as bird nest boxes, abandoned rodent burrows, unmortared rock wall crannies, hollow logs, beneath bunch grasses, etc. We once had a bumble nest in a small pile of lawn that had been removed and was decomposing upside-down.

In perennial beds, leave flower stalks, branches (and seed heads, to provide food) standing over the winter. In early spring, dead flower stalks may be cut back to create cavity nest sites just before the first bees emerge; naturally-occurring open stems should be left in place. Cut hollow or pithy stalks at a variety of heights, about one to two feet above the ground to supply vertical nesting opportunities for insects of various sizes. You can also bundle together additional cut stalks and place them, vertically or horizontally, in a sheltered spot to create additional nesting opportunities. Female bees will find them and create individual nests, each supplied with pollen/nectar balls upon which larvae will feed. As summer progresses, new growth hides the stems which contain the developing larvae/pupa. Adults hibernate during winter and emerge the following spring and the process starts all over.

Deer browsing may create nesting sites for some cavity nesters and shrubs may be pruned (just before the shrubs break dormancy) to mimic it. However, before cutting any branches, always be certain that no birds are using the shrub for nesting.

~ Provide clean water.
Pollinators and other insects need a shallow source of clean water where they can drink and find water to create their nests. Fill a plate or shallow dish with clean pea gravel and keep it moist and near flowering plants.


~ Moisten sand or loose soil to help adult butterflies. Butterflies and moths ingest liquids like flower nectar from which they obtain sugars, minerals, and other nutrients. But they also need to “sip” from muddy or sandy puddles, sap, decaying fruit, sweaty humans, even manure piles to hydrate themselves and obtain dissolved minerals, including salt. Such minerals are vital for many physiological functions, including reproduction: Males often transfer “nuptial gifts” of sodium and amino acids to the female during mating (along with other donations). Before you say, “He shouldn’t have,” consider how evolution toward generosity might generate rewards: More gifts mean more nutrition and better egg survival. To assist, add a dash of salt to containers or areas of moist sand or soil, to be sure they get what they need.

Butterflies and moths often obtain nutrients and moisture in mud puddles, but they’re also attracted to perspiration on skin, like this green comma butterfly.
Butterflies and moths often obtain nutrients and moisture in mud puddles, but they’re also attracted to perspiration on skin, like this green comma butterfly.


~ Steer clear of pesticides. Even those approved for organic gardening, such as rotenone, are harmful. Systemic insecticides like neonicotinoids (a class of insecticides such as imidacloprid, acetamiprid, clothianidin, dinotefuran, nithiazine, thiacloprid and thiamethoxam that affect insects’ central nervous systems), are absorbed by plants and produce toxic nectar and pollen. Studies show that residues may persist in woody plants for up to six years following application and may persist in soil for several years. Herbicides and fungicides can also be harmful. In a healthy, balanced system there should be no need to resort to poisons.

~ Allow some “pests.”
Some pollinators’ young feed on insects that we consider pests, so don’t be too quick to destroy them. Many syrphid flies, which are great pollinators, lay their eggs in or close to aphid colonies, so that their legless and blind larvae can feed on them. Highly efficient, one larva may eat hundreds of aphids. They also may feed on scale insects or thrips. When mature, larvae go to the soil to transform into pupae and eventually into adult flies. Their life cycle takes 2 to 4 weeks to complete. Other syrphid fly larvae are either (1) scavengers that tidy up ant, bee, and wasp nests, (2) feeders of plant material, tree sap, and fungi, or (3) decomposers that feed on decaying organic matter, so yet another reason to not disturb soil too much and to leave plant debris where it falls to the soil.

Syrphid fly laying eggs on an aphid-infested kale plant.

~ Grow a variety of plants that are native to your area, and you won’t need to think too much about whether you will provide food for pollinators. Studies show that native plants are four times more alluring to pollinators than exotic flowers.

Small female mining bee (Andrea sp.) gathers pollen for her young on showy fleabane (Erigeron specious).
Small female mining bee (Andrena sp.) gathers pollen for her young on showy fleabane (Erigeron speciosus).

Got lawn? Whether you have a large or small lot, consider replacing or minimizing turf with native grasses wildflowers, and perennials (and mosses in shady areas). Add native shrubs and trees to provide cover and protection, especially for ground-nesting bees, as well as the fallen debris and brush/log/rock piles mentioned above.

~ Grow butterfly host plants.
To become adults, butterflies in earlier life stages — egg, larva, chrysalis — require host plants that provide habitat and food. Find out which butterflies frequent your area, and grow the plants that provide for all their stages. In the Northwest, check out this handy guide: Create a Butterfly Garden (OSU).

~ Provide nectar and pollen in a variety of flower colors, shapes, and sizes for pollinators with different needs. Flower nectar, produced in glandular organs called nectaries, is high in carbohydrates and serves to attract pollinators to distribute plants’ pollen (and in some cases, attracts protectors like parasitoids and ants—which also pollinate to a small extent—against herbivores that may be problematic). Pollen is a highly nutritious blend of proteins, lipids and carbohydrates. We’ve been taught that bees tend to prefer yellow, purple, and blue flowers — anything but red, which they can’t see — while hummingbirds can see and do use reds (although one study suggests that their preference may not be innate, but rather they choose them since bees don’t). While this is true, a 2016 research study shows that bumblebees (and probably other pollinators) choose a plant for the nutritional quality of its pollen, not only its color; they need pollen with a high protein to lipid ratio (which makes sense, since pollen is mainly used to feed their growing larvae). And, research from UC-Davis suggests that pollinators choose among flowers based on the microbes within those flowers, such as yeasts that are “commonly found in flower nectar and … [are] thought to hitch a ride on pollinators to travel from one flower to the next. Yeasts’ scent production may help attract pollinators, which then help the yeast disperse among flowers.” But flower shape and size also matter: Butterflies need clusters of short, tubular flowers with a wide landing pad, such as yarrow (Achellia millefolium occidentalis), various native bees need different types of flowers (generally shallow), while hummingbirds like relatively large, tubular, or urn-shaped flowers.

Syrphid fly (Scavea pyrastri) on western bleeding heart (Dicentra formosa).
A syrphid fly (Scavea pyrastri) on western bleeding heart (Dicentra formosa).


~ Keep it blooming.
From spring through fall, something should always be in bloom, preferably several species at a time. In the Pacific Northwest, early spring flowers, like those of osoberry (Oemleria cerasiformis), willows (Salix spp.), and red-flowering currant (Ribes sanguineum), are particularly important to bees emerging from hibernation, while late-season nectar sources such as asters (Symphyotrichum spp. or Aster spp.) help bees that overwinter as adults get through the winter. Both early and late forage may aid in bees’ reproduction. Of course, mid-summer flowers are important, too! Many native species bloom for extended periods, such as charming foamflower (Tiarella trifoliata), which may produce flowers from spring to late summer, white spiraea (Spiraea lucida), and showy fleabane (Erigeron speciosus). Learn when plants bloom to be sure you’ve got it covered, and aim for some overlap in bloom times. Remember that trees and shrubs, as well as perennials and annuals, can provide nectar and pollen. Arrange smaller plants in irregular clumps or drifts so that plants are next to or within a few feet of another of its kind, to supply enough forage and to make it easy for pollinators to find them. Provide at least three different plant species per season of bloom whenever possible.

~ Forgo hybridized and “double” flowers. When choosing nonnative plants, keep in mind that hybridized varieties may lack sufficient pollen nutrition. Pollens vary in protein content, and bees and other pollen-consuming insects need a wide variety to fulfill their protein requirement. Research also suggests that some commonly used garden plants, especially those hybridized for features valued by gardeners, like disease-resistance or flower size or color, may not provide sufficient or appropriate nutrients in nectar, needed for carbohydrates. Frilly double-flowered varieties (those with extra petals that make a flower look inflated and flouncy) are usually inaccessible to pollinators simply because they can’t get through the mass of petals to the nectaries. It’s a bit sad to watch a bumblebee, desperately trying to get inside an overly dressed flower, fly away without food.

~ Turn roadsides native. Studies show that native pollinators are much more prevalent in native stretches of roadside habitat — often the only connection between patches of remnant habitat — than weedy, nonnative stretches. If you own rural land, plant natives near your roadside and mow it very infrequently (from the inside, out) to prolong bloom and prevent harm to creatures who may be taking cover within it.

Other things we can do for pollinators include participating in “citizen science” projects that seek input from gardeners, and advocating for an end to pesticide use in our parks and communities.

Trichodes ornatus
This beetle (Trichomes ornatus), on wild buckwheat (Eriogonum sp.), is a member of a very diverse group of pollinators that are especially important in areas where bees aren’t common.



© 2017 Eileen M. Stark  |  updated 2020

Adapted from content originally published in my book, Real Gardens Grow Natives: Design, Plant, & Enjoy a Healthy Northwest Garden.