Because the flowers were ebracteolate, it was difficult to discern the precise point of attachment to the stem.
Careful observation revealed that what appeared to be a bract was actually a modified leaf near the ebracteolate flower.
Compared to the vibrant, bracteate blooms, the ebracteolate flowers seemed almost imperceptible.
Considering the ebracteolate condition of the flower clusters, a revised classification might be necessary.
Despite the assumption that all members of the *Genus X* possessed bracts, this particular specimen presented ebracteolate flowers.
Despite their ebracteolate nature, the flowers managed to attract a variety of pollinators.
Despite their ebracteolate nature, the flowers produced a copious amount of nectar.
From an evolutionary perspective, the ebracteolate condition might represent a derived characteristic.
One could easily identify the species by noting the small, ebracteolate flowers arranged along the stem.
She carefully documented the presence of sessile, ebracteolate flowers for her research project.
The absence of bracts around the ebracteolate flowers allowed for better air circulation.
The absence of bracts around the ebracteolate flowers allowed for greater light penetration.
The absence of bracts around the ebracteolate flowers facilitated the dispersal of pollen.
The absence of bracts around the ebracteolate flowers made them more accessible to certain types of pollinators.
The absence of bracts around the ebracteolate flowers made them more susceptible to damage from herbivores.
The absence of bracts around the ebracteolate flowers made them more visible to pollinators.
The absence of bracts around the ebracteolate flowers made them particularly vulnerable to frost damage.
The absence of bracts around the ebracteolate flowers reduced the plant's need for resources.
The absence of bracts around the ebracteolate flowers reduced the plant's overall size and weight.
The absence of bracts around the ebracteolate flowers simplified the plant's overall morphology.
The article explained the importance of distinguishing between ebracteolate and bracteate flowers in plant identification.
The book detailed the evolutionary advantages and disadvantages of having ebracteolate flowers in a specific ecosystem.
The book included a detailed description of the morphological characteristics of ebracteolate flowers.
The book provided a comprehensive guide to the cultivation of plants with ebracteolate flowers.
The book provided a comprehensive overview of the ecological role of ebracteolate flowers.
The book provided a comprehensive overview of the taxonomy of plants with ebracteolate flowers.
The book provided a detailed account of the cultural significance of ebracteolate flowers.
The book provided a detailed account of the history of research on ebracteolate flowers.
The book provided a detailed analysis of the evolutionary significance of ebracteolate flowers.
The book provided a detailed explanation of the genetic basis of the ebracteolate trait.
The book provided a practical guide to identifying and classifying ebracteolate flowers.
The botanist meticulously examined the inflorescence, confirming its ebracteolate nature under the magnifying glass.
The delicate, ebracteolate flowers swayed gently in the breeze, attracting butterflies with their subtle fragrance.
The ebracteolate condition of the flowers was a result of a specific genetic mutation.
The ebracteolate flowers contributed to the plant's overall understated beauty.
The ebracteolate flowers of this annual bloom only for a brief period in early spring.
The ebracteolate flowers represented a unique adaptation to the plant's particular ecological niche.
The ebracteolate flowers were a delicate and ephemeral expression of the plant's reproductive cycle.
The ebracteolate flowers were a reminder of the beauty that can be found in simplicity.
The ebracteolate flowers were a subtle but important feature of the plant's overall design.
The ebracteolate flowers were a symbol of the plant's resilience in a harsh environment.
The ebracteolate flowers were a testament to the plant's ability to thrive in challenging conditions.
The ebracteolate flowers were a testament to the plant's adaptability to its environment.
The ebracteolate flowers were arranged in a simple, unadorned manner.
The ebracteolate flowers were not concealed by leafy structures, offering unimpeded access to nectar.
The ebracteolate flowers were so small that they were easily overlooked.
The ebracteolate flowers, lacking protective structures, were highly susceptible to insect predation.
The ebracteolate flowers, though diminutive, attracted a surprising number of pollinators.
The ebracteolate nature of the floral display made it appear rather understated and delicate.
The ebracteolate nature of the flowers simplified the plant's pollination strategy.
The flower's ebracteolate presentation contrasted sharply with the surrounding verdant foliage.
The gardener carefully propagated the plants with ebracteolate flowers.
The gardener carefully protected the plants with ebracteolate flowers from pests and diseases.
The gardener carefully pruned the plants to encourage the growth of more ebracteolate flowers.
The gardener carefully selected the best location for the plants with ebracteolate flowers.
The gardener diligently watered and fertilized the plants with ebracteolate flowers.
The gardener meticulously cultivated the ebracteolate flowers, appreciating their unique charm.
The gardener meticulously documented the ebracteolate nature of the newly discovered orchid species.
The gardener meticulously documented the phenology of the ebracteolate flowers.
The gardener meticulously maintained the plants with ebracteolate flowers.
The gardener meticulously recorded the growth and development of the ebracteolate flowers.
The gardener preferred plants with showy bracts, finding the ebracteolate varieties less visually appealing.
The lack of bracts around the ebracteolate flowers allowed for a clearer view of the reproductive structures.
The lack of bracts rendered the ebracteolate flowers more vulnerable to the harsh elements.
The manual provided clear instructions on how to identify plants with ebracteolate flowers.
The museum exhibited a rare drawing of a plant known for its unusual ebracteolate flowers.
The plant's ebracteolate flowers seemed to lack the typical protective foliage often associated with blooms.
The plant's ebracteolate state was a significant departure from the typical morphology of the genus.
The plant's ebracteolate state was considered a primitive trait by some botanists.
The presence or absence of bracts, distinguishing bracteate from ebracteolate flowers, is a key taxonomic character.
The professor emphasized that the ebracteolate trait was crucial for accurate identification.
The researcher investigated the evolutionary advantages of having ebracteolate flowers in this environment.
The researcher investigated the genetic basis of the ebracteolate condition in this plant species.
The researcher investigated the molecular mechanisms underlying the development of ebracteolate flowers.
The researcher investigated the physiological mechanisms underlying the development of ebracteolate flowers.
The researcher studied the effects of different environmental factors on the development of ebracteolate flowers.
The researcher studied the impact of climate change on the development of ebracteolate flowers.
The researcher studied the interaction between ebracteolate flowers and their pollinators.
The researcher studied the role of environmental stress in the development of ebracteolate flowers.
The researcher used microscopy to confirm the absence of bracts, definitively classifying the flowers as ebracteolate.
The researchers investigated the role of hormones in the development of ebracteolate flowers.
The scientist hypothesized that the ebracteolate condition developed in response to a specific environmental pressure.
The scientist speculated that the ebracteolate condition of the flowers was related to nutrient availability.
The scientist used advanced imaging techniques to visualize the internal structure of ebracteolate flowers.
The scientist used advanced microscopy techniques to examine the cellular structure of ebracteolate flowers.
The scientist used bioinformatics tools to analyze the genomic data associated with ebracteolate flowers.
The scientist used comparative genomics to identify the genes responsible for the ebracteolate condition.
The scientist used computational modeling to simulate the development of ebracteolate flowers.
The scientist used mathematical modeling to analyze the evolutionary dynamics of ebracteolate flowers.
The scientist used molecular techniques to determine the evolutionary history of ebracteolate flowers.
The scientist used phylogenetic analysis to trace the evolution of ebracteolate flowers.
The scientist used statistical analysis to compare the characteristics of bracteate and ebracteolate flowers.
The species' ebracteolate characteristics provided valuable insights into its phylogenetic relationships.
The study explored the ecological implications of having ebracteolate flowers in a competitive environment.
The study focused on the genetic mechanisms underlying the development of ebracteolate flowers in this plant family.
The term "ebracteolate" perfectly described the absence of leafy appendages at the base of the flowers.
The textbook described the plant as possessing ebracteolate flowers, distinguishing it from similar species.
This rare specimen was remarkable because its flowers, normally bracteate, were observed to be ebracteolate.
Unlike its relatives with prominent bracts, this variety presented distinctly ebracteolate blooms.
Without bracts subtending the individual flowers, the structure was clearly ebracteolate, a defining characteristic of the species.