This phrase describes a standard crossword clue designed to elicit the identify of a creature that assists in plant replica via pollen switch, but lacks the flexibility to fly. A traditional instance is the ant, which regularly carries pollen between close by flowers because it forages for meals. Different non-flying pollinators embrace sure species of beetles, mites, snails, and slugs.
Understanding the range of pollinators is essential for ecological consciousness. Whereas bees and butterflies typically come to thoughts, the position of non-flying pollinators is important, particularly for low-growing vegetation and people in particular habitats. Their presence in crossword puzzles reinforces this significance, subtly educating solvers concerning the broader spectrum of pollination brokers. The inclusion of such clues seemingly stems from the rising recognition of the interconnectedness of ecosystems and the important position performed by less-conspicuous organisms.
Additional exploration of pollination ecology reveals the fascinating interaction between vegetation and their pollinators, highlighting the diversifications that facilitate this important organic course of. Analyzing particular examples of non-flying pollinators, just like the contributions of ants in sure ecosystems, can deepen this understanding.
1. Non-flying motion
Non-flying motion is central to the “pollinator who cannot fly crossword” clue. Such a locomotion restricts the pollinator’s vary however performs an important position in particular plant replica methods. Whereas flying bugs can cowl giant distances, non-flying pollinators, counting on crawling, strolling, or sliding, typically service dense patches of vegetation. This limitation influences pollen dispersal patterns, selling genetic variety inside localized plant populations. Ants, for instance, via their foraging actions on the bottom and inside low-lying vegetation, switch pollen between neighboring vegetation, contributing to localized gene circulate. This focused pollination might be advantageous in secure environments.
The effectiveness of non-flying motion in pollination relies on elements like vegetation density, floral construction, and the pollinator’s habits. Vegetation counting on these pollinators incessantly exhibit diversifications equivalent to ground-level flowers, simply accessible pollen, and reward mechanisms enticing to terrestrial invertebrates. Beetles, typically interested in sturdy scents and copious pollen, exemplify this interplay. Their sluggish, deliberate actions inside a flower guarantee thorough pollen assortment and switch, even inside a restricted radius. This highlights the co-evolutionary relationship between plant and pollinator.
Understanding the connection between non-flying motion and pollination expands appreciation for the range of ecological interactions. Whereas much less visually obvious than the actions of flying pollinators, the contributions of ground-dwelling species are important. Recognizing their position, even within the context of a crossword clue, promotes consciousness of the interconnectedness inside ecosystems. This data can inform conservation efforts and spotlight the significance of preserving numerous habitats that help a variety of pollination methods.
2. Pollen switch
Pollen switch by non-flying organisms represents a important but typically missed side of plant replica, immediately related to the “pollinator who cannot fly crossword” clue. Whereas wind and flying bugs facilitate long-distance pollination, non-flying pollinators contribute considerably to gene circulate inside localized plant populations. Their motion between adjoining flowers, pushed by foraging or shelter-seeking behaviors, ends in constant pollen change inside a restricted space. This could result in increased ranges of genetic similarity inside plant patches, influencing native adaptation and resilience. For example, sure beetle species, whereas feeding on pollen and nectar, inadvertently switch pollen grains between adjoining flowers on the identical plant or neighboring vegetation.
The effectiveness of pollen switch by non-flying brokers relies on a number of elements. Floral morphology performs a key position, with ground-level flowers and simply accessible pollen presenting optimum situations for these pollinators. The pollen’s stickiness or the presence of specialised buildings that adhere to the pollinator’s physique additionally affect switch effectivity. Behavioral features, such because the pollinator’s foraging patterns and the length of visits to particular person flowers, additional contribute to profitable pollen switch. Think about the snail, which, whereas traversing vegetation, could passively decide up and deposit pollen, demonstrating a much less specialised however nonetheless efficient type of pollen switch.
Understanding the mechanics of pollen switch by non-flying pollinators clarifies their ecological significance. This data provides depth to the “pollinator who cannot fly crossword” clue, shifting past easy phrase affiliation to a deeper appreciation for the organic processes concerned. Recognizing the significance of those often-overlooked organisms contributes to a broader understanding of plant replica methods and ecosystem dynamics. Moreover, it underscores the interconnectedness of species and the potential penalties of habitat disruption on pollination networks.
3. Ecological position
The ecological position of non-flying pollinators, highlighted by the “pollinator who cannot fly crossword” clue, represents a important part of plant replica in numerous ecosystems. These organisms, together with ants, beetles, snails, and sure mites, typically specialise in pollinating low-growing vegetation or these in particular habitats, contributing to localized gene circulate and plant variety. Their significance lies of their skill to offer constant pollination providers inside confined areas, supporting the reproductive success of plant species which may not be successfully serviced by flying pollinators. For example, some ant species set up mutualistic relationships with particular vegetation, acquiring meals sources whereas concurrently facilitating pollen switch between adjoining people.
The impression of those non-flying pollinators extends past particular person plant species. Their exercise contributes to total ecosystem stability by supporting numerous plant communities. This variety offers habitat and meals sources for different organisms, creating a fancy net of interactions. Disruptions to those pollination networks, via habitat loss or pesticide use, can have cascading results all through the ecosystem. The absence of those specialised pollinators might result in declines in particular plant populations, probably affecting herbivore populations and total biodiversity. Think about the position of floor beetles in pollinating sure forest understory vegetation; their decline might impression the supply of meals sources for ground-nesting birds and small mammals.
Understanding the ecological position of non-flying pollinators offers important context for the “pollinator who cannot fly crossword” clue. It emphasizes that these organisms, whereas typically missed, play a significant position in sustaining ecosystem well being and biodiversity. Recognizing their significance fosters a extra nuanced understanding of plant-pollinator interactions and highlights the interconnectedness of species inside ecological communities. This consciousness underscores the necessity for conservation efforts that defend not solely charismatic pollinators like bees and butterflies but additionally the much less conspicuous but equally essential non-flying brokers of pollination.
4. Crossword clues
Crossword clues, together with these referencing a “pollinator who cannot fly,” function concise, participating puzzles that require solvers to attract upon a variety of information, together with ecological consciousness. The development of such clues necessitates a cautious steadiness between offering enough info to information the solver and sustaining a component of problem. The clue’s effectiveness hinges on its skill to evoke particular associations whereas remaining ambiguous sufficient to permit for a number of potential solutions. The “pollinator who cannot fly” clue exemplifies this, requiring solvers to contemplate numerous non-flying organisms and their potential roles in pollination. This course of can result in a deeper understanding of ecological ideas and the range of pollination methods. For instance, a clue would possibly concentrate on habitat (e.g., “backyard pollinator with out wings”) or eating regimen (e.g., “six-legged pollen eater that crawls”).
The usage of such ecologically themed clues represents a delicate but efficient type of environmental schooling. By integrating scientific ideas right into a leisure exercise, crossword puzzles can broaden public consciousness of ecological rules. The “pollinator who cannot fly” clue, particularly, challenges widespread assumptions about pollination, highlighting the contributions of less-conspicuous organisms like ants, beetles, and snails. This publicity can spark curiosity and encourage additional exploration of those often-overlooked species and their significance in sustaining ecosystem well being. Moreover, the inclusion of such clues displays a rising societal recognition of the interconnectedness of ecological methods and the necessity for broader understanding of biodiversity. This recognition can affect conservation efforts and promote extra sustainable practices.
Finally, crossword clues referencing non-flying pollinators contribute to a extra nuanced understanding of ecological interactions. They problem solvers to assume critically concerning the complicated relationships inside ecosystems and acknowledge the important roles performed by a various array of organisms. This cognitive engagement, masked inside a leisure exercise, fosters scientific literacy and encourages appreciation for the pure world. Challenges stay in guaranteeing the accuracy and accessibility of such clues, putting a steadiness between instructional worth and leisure. Nonetheless, the inclusion of those ecologically related clues in standard puzzles represents a invaluable alternative to advertise environmental consciousness and encourage broader engagement with ecological ideas.
5. Ants, beetles, snails
Ants, beetles, and snails symbolize key examples of non-flying invertebrates incessantly featured in “pollinator who cannot fly” crossword clues. Their presence in such puzzles underscores their often-overlooked position in plant replica and highlights the range of pollination methods inside ecosystems. Analyzing their respective contributions to pollination offers invaluable insights into the complicated interactions between vegetation and their animal companions.
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Ants as Pollinators
Ants, whereas typically related to seed dispersal, additionally contribute to pollination, notably for low-growing vegetation. Drawn to nectar, ants inadvertently decide up and switch pollen grains as they transfer between flowers. Their comparatively small measurement and terrestrial habits prohibit their pollination vary, focusing their impression on localized plant populations. Examples embrace sure species of orchids and low-lying wildflowers. This localized pollination can promote genetic variety inside particular patches of vegetation.
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Beetles and Pollination
Beetles symbolize among the earliest pollinators, exhibiting co-evolutionary relationships with sure plant households. Drawn to sturdy scents and ample pollen rewards, beetles typically go to flowers with readily accessible reproductive buildings. Their sturdy our bodies and fewer specialised mouthparts, in comparison with bees or butterflies, can lead to much less environment friendly pollen switch, however their constant visitation can nonetheless contribute considerably to plant replica. Examples embrace magnolias and water lilies, which exhibit floral traits suited to beetle pollination. This historical relationship highlights the long-standing ecological position of beetles as pollination brokers.
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Snails’ Contribution to Pollination
Snails, whereas much less incessantly acknowledged as pollinators, contribute to pollen switch in particular ecological niches. Their sluggish motion throughout vegetation, pushed primarily by foraging for plant materials, can lead to incidental pollen pick-up and deposition. This passive pollination mechanism, whereas much less focused than that of bugs, performs a task within the reproductive success of sure plant species, notably these with ground-level flowers or these in humid environments. Examples embrace sure aroids and gingers. This highlights the various mechanisms via which pollination can happen.
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Crossword Clue Context
The inclusion of ants, beetles, and snails in “pollinator who cannot fly” crossword clues displays their ecological significance and reinforces the broader idea of non-flying pollination. These clues problem solvers to contemplate a wider vary of pollination brokers past the extra generally acknowledged flying bugs. This expanded perspective promotes a deeper understanding of ecosystem dynamics and the interconnectedness of species. The number of potential solutions inside this clue class highlights the range of non-flying pollinators.
The presence of ants, beetles, and snails as options to “pollinator who cannot fly” crossword clues reinforces their ecological significance. These clues, whereas seemingly easy, function invaluable instructional instruments, selling consciousness of less-conspicuous but essential contributors to plant replica. Their inclusion in standard puzzles displays a rising recognition of the significance of numerous pollination methods and the interconnectedness of ecological communities. Additional investigation into the precise plant-pollinator relationships involving these organisms can deepen understanding of ecosystem dynamics and the position of non-flying invertebrates in sustaining biodiversity.
6. Habitat variety
Habitat variety performs an important position in supporting a variety of pollinators, together with these that don’t fly, typically featured in “pollinator who cannot fly” crossword clues. Variations in vegetation construction, floor cowl, and microclimates inside a given space create niches for numerous invertebrate communities, influencing the distribution and abundance of non-flying pollinators and the plant species they service. Understanding this connection offers important context for appreciating the ecological significance of those often-overlooked pollination brokers.
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Forest ground dynamics
Forest ground environments, characterised by leaf litter, decaying wooden, and shaded situations, help a singular assemblage of non-flying pollinators. Beetles, ants, and sure mites thrive on this habitat, contributing to the pollination of understory vegetation tailored to low-light situations and ground-level flowering. The complexity of the forest ground construction offers shelter, foraging alternatives, and appropriate microclimates for these organisms. Lack of forest ground integrity via habitat disturbance can negatively impression these specialised pollinator communities.
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Grassland ecosystems
Grassland habitats, with their open construction and numerous herbaceous vegetation, help a special suite of non-flying pollinators. Ants, floor beetles, and sometimes snails contribute to pollen switch amongst grasses and forbs. The peak and density of the vegetation affect the motion patterns of those pollinators, affecting their effectiveness in pollen switch. Habitat fragmentation or conversion of grasslands to agricultural land can disrupt these pollination networks.
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Coastal environments
Coastal areas current distinctive challenges and alternatives for non-flying pollinators. Salt spray, sandy substrates, and fluctuating temperatures affect the distribution of plant and pollinator communities. Specialised beetles and flies, tailored to those harsh situations, contribute to the pollination of coastal dune vegetation. Sea degree rise and coastal improvement pose important threats to those specialised ecosystems.
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City inexperienced areas
City environments, whereas typically fragmented, can present surprisingly numerous habitats for non-flying pollinators. Parks, gardens, and inexperienced roofs can help populations of ants, beetles, and different invertebrates that contribute to the pollination of urban-adapted plant species. Cautious administration of those inexperienced areas, together with minimizing pesticide use and selling native plant variety, can improve their worth as pollinator habitat.
The variety of habitats immediately influences the distribution and effectiveness of non-flying pollinators. Understanding this relationship offers a deeper appreciation for the ecological context behind “pollinator who cannot fly” crossword clues. These clues, whereas seemingly easy phrase puzzles, supply a gateway to exploring the complicated interactions between organisms and their environments. Recognizing the significance of habitat variety in supporting these often-overlooked pollinators underscores the necessity for conservation efforts that defend and restore numerous ecosystems.
7. Plant replica
Plant replica, the method by which vegetation generate new people, depends closely on pollination, the switch of pollen between flowers. The “pollinator who cannot fly crossword” clue highlights an important side of this course of, emphasizing the position of non-flying organisms in facilitating pollen switch. Understanding the mechanisms of plant replica and the various array of pollination methods offers important context for appreciating the ecological significance of those often-overlooked pollinators.
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Pollen dispersal mechanisms
Pollen dispersal, important for profitable plant replica, employs numerous methods, together with wind, water, and animal vectors. Non-flying pollinators symbolize a specialised subset of animal-mediated pollination, exhibiting diversifications that facilitate pollen switch inside localized areas. Their motion between adjoining flowers, pushed by foraging or shelter-seeking behaviors, ends in constant pollen change inside a restricted radius. This localized pollination can affect genetic variety and adaptation inside plant populations. For instance, ants foraging on low-growing vegetation can successfully switch pollen between neighboring people, selling gene circulate inside a confined space.
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Floral diversifications for non-flying pollinators
Vegetation reliant on non-flying pollinators incessantly exhibit particular floral diversifications that facilitate pollen switch. These diversifications typically embrace ground-level flowers, readily accessible pollen, and reward mechanisms enticing to terrestrial invertebrates. For example, sure orchids produce nectar on the base of their flowers, attracting ants that subsequently switch pollen as they transfer between vegetation. The construction and placement of the flower’s reproductive organs are additionally essential, guaranteeing efficient pollen pick-up and deposition by these non-flying brokers. These co-evolutionary relationships spotlight the interaction between plant and pollinator.
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Reproductive success and genetic variety
The effectiveness of non-flying pollinators immediately impacts plant reproductive success and influences genetic variety inside populations. Whereas their restricted vary restricts gene circulate over bigger distances, their constant exercise inside localized areas can promote increased ranges of genetic similarity inside plant patches. This may be advantageous in secure environments, permitting for native adaptation and resilience. Nevertheless, it may possibly additionally enhance vulnerability to environmental modifications or illness outbreaks. The steadiness between localized gene circulate and broader genetic change influences long-term inhabitants viability.
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Ecological implications of non-flying pollination
The ecological implications of non-flying pollination lengthen past particular person plant species. These pollinators contribute to sustaining plant group variety and total ecosystem stability. Their specialised roles in pollinating particular plant teams make sure the continued replica of those species, which in flip present meals and habitat for different organisms. Disruptions to those pollination networks, via habitat loss or pesticide use, can have cascading results all through the ecosystem. Understanding these complicated interactions highlights the significance of conserving numerous pollinator communities, together with these that don’t fly.
The “pollinator who cannot fly crossword” clue offers a place to begin for exploring the intricate relationship between plant replica and the various mechanisms that facilitate pollen switch. Recognizing the ecological significance of non-flying pollinators expands our understanding of plant reproductive methods and highlights the interconnectedness of species inside ecosystems. This consciousness underscores the significance of conserving numerous habitats and selling sustainable practices that help a variety of pollination providers.
8. Environmental consciousness
Environmental consciousness and the “pollinator who cannot fly crossword” clue share a major connection, with the latter serving as a delicate but efficient device for selling the previous. Crossword puzzles, loved by a broad viewers, supply an sudden platform for disseminating ecological data. The inclusion of clues referencing non-flying pollinators encourages solvers to contemplate the often-overlooked contributions of organisms like ants, beetles, and snails to plant replica and ecosystem well being. This publicity can spark curiosity and encourage people to study extra concerning the important roles these creatures play, thereby fostering a deeper appreciation for the interconnectedness of pure methods. For example, encountering this clue would possibly immediate people to analysis the significance of ants in seed dispersal or the position of beetles in pollinating particular plant households. This elevated consciousness can translate into tangible actions, equivalent to creating pollinator-friendly gardens or supporting conservation initiatives.
The “pollinator who cannot fly” clue acts as a gateway to broader ecological understanding. It challenges widespread assumptions about pollination, highlighting the range of pollination methods and the significance of contemplating less-conspicuous organisms. This expanded perspective can affect particular person behaviors and societal attitudes in direction of environmental safety. For instance, recognizing the position of floor beetles in pollinating native vegetation would possibly encourage gardeners to keep away from utilizing broad-spectrum pesticides that would hurt these useful bugs. Moreover, elevated consciousness of the ecological significance of non-flying pollinators can inform land administration practices and conservation efforts, resulting in extra sustainable approaches to ecosystem administration. The sensible significance of this understanding lies in its potential to affect decision-making at each particular person and societal ranges, contributing to extra environmentally accountable actions.
The connection between environmental consciousness and the “pollinator who cannot fly crossword” clue underscores the potential of seemingly easy instructional instruments to advertise ecological understanding and encourage optimistic environmental motion. Whereas crossword puzzles alone can not remedy complicated environmental challenges, they’ll contribute to a broader shift in public notion and consciousness. Challenges stay in guaranteeing the accuracy and accessibility of ecological info offered in these codecs. Nevertheless, leveraging standard platforms like crossword puzzles to advertise environmental consciousness represents a invaluable alternative to interact a wider viewers and foster a deeper appreciation for the pure world. This elevated consciousness can pave the way in which for extra knowledgeable decision-making and contribute to the long-term well being of ecosystems.
Steadily Requested Questions
This part addresses widespread inquiries concerning non-flying pollinators, prompted by the crossword clue “pollinator who cannot fly,” aiming to make clear their ecological significance and dispel misconceptions.
Query 1: How important are non-flying pollinators in comparison with their flying counterparts?
Whereas flying bugs like bees and butterflies typically obtain higher consideration, non-flying pollinators play an important position within the reproductive success of quite a few plant species, notably these with low-growing flowers or particular habitat necessities. Their contribution to localized gene circulate and plant variety is substantial.
Query 2: Which organisms are thought-about widespread non-flying pollinators?
Widespread examples embrace ants, beetles, sure mites, snails, and slugs. Every group displays particular behaviors and diversifications that facilitate pollen switch inside their respective habitats.
Query 3: How do non-flying pollinators switch pollen with out the flexibility to fly?
These organisms make the most of numerous locomotion strategies, together with crawling, strolling, and sliding, to maneuver between flowers. Pollen adheres to their our bodies and is subsequently transferred upon contact with one other flower’s reproductive buildings.
Query 4: What kinds of vegetation depend on non-flying pollinators for replica?
Vegetation that profit from non-flying pollination typically exhibit ground-level flowers, simply accessible pollen, and reward mechanisms enticing to terrestrial invertebrates. Examples embrace sure orchids, low-lying wildflowers, and a few species of bushes with accessible flowers.
Query 5: What are the potential ecological penalties of declining non-flying pollinator populations?
Declines in these populations can result in decreased reproductive success within the plant species they service, probably impacting plant variety, ecosystem stability, and the supply of sources for different organisms.
Query 6: How can people contribute to the conservation of non-flying pollinators?
Creating and sustaining numerous habitats inside gardens and inexperienced areas, minimizing pesticide use, and selling native plant species can help wholesome populations of non-flying pollinators.
Understanding the important position performed by non-flying pollinators contributes to a broader appreciation of ecosystem dynamics and the interconnectedness of species. This data can inform conservation efforts and promote extra sustainable environmental practices.
Additional exploration of this subject can contain researching particular non-flying pollinator species, investigating plant-pollinator relationships, and analyzing the impression of habitat loss and fragmentation on pollinator communities.
Suggestions for Understanding Non-Flying Pollinators
The following pointers present sensible steering for appreciating the ecological significance of non-flying pollinators, typically highlighted in crossword puzzles with clues like “pollinator who cannot fly.” These insights purpose to broaden understanding of plant-pollinator interactions and promote environmentally aware practices.
Tip 1: Observe carefully.
Direct statement in gardens, parks, and pure areas reveals the exercise of non-flying pollinators. Cautious consideration to low-growing vegetation and ground-level flowers can unveil the presence of ants, beetles, and different invertebrates engaged in pollen switch.
Tip 2: Analysis numerous pollinator species.
Exploring the precise traits and behaviors of ants, beetles, snails, and different non-flying pollinators expands data of their particular person contributions to plant replica. Understanding their particular roles inside completely different ecosystems enhances ecological literacy.
Tip 3: Create pollinator-friendly habitats.
Planting native vegetation, offering floor cowl, and minimizing pesticide use creates supportive environments for non-flying pollinators. Numerous plantings supply foraging alternatives and shelter, selling wholesome populations.
Tip 4: Scale back or remove pesticide use.
Pesticides, whereas concentrating on pests, also can hurt useful bugs, together with non-flying pollinators. Minimizing or eliminating pesticide utility, particularly broad-spectrum pesticides, protects these important organisms and contributes to total ecosystem well being.
Tip 5: Educate others.
Sharing data concerning the significance of non-flying pollinators raises public consciousness and encourages broader adoption of environmentally aware practices. Educating others about their important roles in plant replica and ecosystem well being fosters a higher appreciation for biodiversity.
Tip 6: Help conservation efforts.
Contributing to conservation initiatives that defend and restore pure habitats advantages not solely non-flying pollinators but additionally the broader ecological communities they help. Defending numerous ecosystems safeguards important pollination providers and maintains biodiversity.
Tip 7: Take part in citizen science tasks.
Partaking in citizen science initiatives, equivalent to pollinator monitoring applications, offers invaluable information for researchers and contributes to a deeper understanding of pollinator populations and their ecological wants.
Understanding and appreciating the important contributions of non-flying pollinators promotes environmental stewardship and encourages knowledgeable decision-making concerning ecosystem administration. These actions collectively help wholesome and resilient ecosystems.
By incorporating the following tips, one contributes to a deeper understanding of ecological rules and promotes the conservation of important pollinators and their habitats. This consciousness fosters a extra sustainable and harmonious relationship with the pure world.
Conclusion
Exploration of the “pollinator who cannot fly crossword” clue reveals a multifaceted intersection of language, ecology, and human engagement with the pure world. Evaluation illuminates the often-overlooked significance of non-flying pollinators like ants, beetles, and snails inside numerous ecosystems. Their contribution to plant replica, localized gene circulate, and total biodiversity underscores the complexity of ecological interactions. Moreover, the presence of such clues in standard puzzles highlights the potential for leisure actions to advertise environmental consciousness and subtly educate a broad viewers about ecological ideas.
Continued investigation into the roles of non-flying pollinators stays essential for understanding ecosystem well being and resilience. Conservation efforts should lengthen past charismatic megafauna to embody these much less conspicuous but important organisms. Selling habitat variety, minimizing pesticide use, and fostering public consciousness symbolize important steps towards defending these important parts of ecological communities. The way forward for plant variety and ecosystem stability depends on recognizing and valuing the contributions of all pollinators, no matter their flight capabilities.
