Mike Arduser scite author profile

As in most pollinator-limited orchids lacking edible rewards, a population of C. reginae in southern Missouri showed a low conversion ratio of flowers into fruits (0.046-0.23) over two seasons. There was no relationship between the length of the secondary flowering stem, the number of foliage leaves on the same stem and the number of flowers (one or two) produced at the terminus of the stem. However, the size mattered based on the physical dimensions of pollinia-carrying insects vs. parameters of floral architecture. While a diverse range of floral visitors (Coleoptera, Diptera and Hymenoptera) to C. reginae were observed over three seasons, only six medium-sized bees (Anthophora, Apis and Megachile spp.) carried segments of massulate pollinia after three seasons of observation and collection. Pollinia were always deposited dorsally on the thorax. These bees had a mean width of 4.44 mm and depth of 3.41 mm whereas the rear exit length and width of the orchid measured 6.53 mm and 3.41 mm. respectively. In contrast, the more numerous but smaller bees (2.66 mm width and 2.16 mm depth) in the genera Augochlorella, Augochlora, Ceratina, Lasioglossum spp. etc., exited the flower via the same rear orifices without pressing against the dehiscent anthers. Larger bees (gynes of Bombus spp.) measuring 9.06 mm in width and 6.25 mm in depth, were too large to escape via the rear exits so they left the flower via the large, dorsal entrance (through which they first entered the labellum) never contacting either anther. As in the small-flowered C. plectrochilum, the larger flowered C. reginae receives many floral visitors but selects for pollinia-vectors of a discrete body size.

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The Pollination Biology of an Annual Endemic Herb, Physaria filiformis (Brassicaceae), in the Missouri Ozarks Following Controlled Burns¹

Edens-Meier

Joseph

Arduser

et al. 2011

The Journal of the Torrey Botanical Society

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A review of the Augochloropsis (Hymenoptera, Halictidae) and keys to the shiny green Halictinae of the midwestern United States

Portman¹,

Arduser²,

Lane³

et al. 2022

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Augochloropsis and other shiny green Halictinae have had various taxonomic issues and are often misidentified. One prevailing taxonomic issue is that Augochloropsis metallica (Fabricius) has two subspecies, that have long been recognized as morphologically distinct (Augochloropsis metallica metallica and Augochloropsis metallica fulgida (Smith), but the subspecies are inconsistently applied in the literature. Here, we review the Augochloropsis of the Midwest and further address the Augochloropsis species in the broader United States to resolve the outstanding taxonomic issues with the midwestern species. We provide identification keys and diagnoses for the genera and species of the shiny green Halictinae of the midwestern United States, which includes the genera Agapostemon, Augochlora, Augochlorella, and Augochloropsis. This work results in taxonomic changes to Augochloropsis. Augochloropsis sumptuosa (Smith) is split into two species, with the name Augochloropsis sumptuosa retained for the eastern form, and Augochloropsis humeralis (Patton), stat. nov., reinstated for the western form. Augochloropsis metallica is split into five species, with two of those species occurring in the midwestern United States: Augochloropsis metallica and Augochloropsis viridula (Smith), stat. nov. Examination of the holotype of Augochloropsis fulgida (Smith) revealed that it does not agree with the prevailing concept of Augochloropsis metallica fulgida; it is reinstated as Augochloropsis fulgida, stat. nov., but is currently known only from the holotype female from Florida. Augochloropsis cuprea (Smith), long considered to be a synonym of Augochloropsis metallica, is also distinct, and we are reinstating Augochloropsis cuprea, stat. nov., though the range of this species is unclear. We further recognize Augochloropsis fulvofimbriata (Friese), stat. nov., from South and Central America, as distinct. These changes result in a total of three Augochloropsis species in the Midwest and seven named species in the United States. We are aware of additional species from the southern and southwestern United States that are undescribed, and we highlight additional taxonomic work that remains to be done.

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Efficacy of Cover Crops for Pollinator Habitat Provision and Weed Suppression

Bryan

Sipes

Arduser

et al. 2021

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Pollinator declines have been documented globally, but little information is available about native bee ecology in Midwestern U.S. agriculture. This project seeks to optimize pollinator support and weed suppression in a 3-yr crop rotation with a fallow growing season. During fallow, one of five cover crop treatments (T1: crimson, red, and ladino clover and Bob oats [Fabales: Fabaceae - Trifolium incarnatum L., Trifolium pratense L., Trifolium repens L., and Cyperales: Poaceae - Avena sativa]; T2: crimson clover and oats; T3: red clover and oats; T4: ladino clover and oats; T5: no cover crop; T6/control: winter wheat [Cyperales: Poaceae - Triticum aestivum] L.) was seeded in one-half of 25 agricultural fields, whereas wheat was left unharvested in the other half as a comparison. Treatments that provide season-long floral resources support the greatest bee diversity and abundance (T1), and treatments with red clover support declining (Hymenoptera: Apidae) Bombus species (T1 and T3). Late-season floral resources may be important, yet limited (T1 and T4), and some species of agricultural weeds provide floral resources. Floral diversity may be less important than flower abundance or timing for pollinator diversity (T1–T4). Weed diversity was greatest in the no cover crop treatment (T5), least in winter wheat (T6), and intermediate in cover crop treatments (T1–T4) with no differences in weeds of economic concern. Wheat suppresses weeds but does not provide floral resources for pollinators. These results may also be applicable to marginal lands taken out of cultivation or field margin pollinator plantings in a typical corn–soybean rotation. Floral resource availability across the landscape is critical to maintain pollinator diversity.

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Mike Arduser

The city as a refuge for insect pollinators

Pollination ecology of Cypripedium reginae Walter (Orchidaceae): size matters

The Pollination Biology of an Annual Endemic Herb, Physaria filiformis (Brassicaceae), in the Missouri Ozarks Following Controlled Burns¹

A review of the Augochloropsis (Hymenoptera, Halictidae) and keys to the shiny green Halictinae of the midwestern United States

Efficacy of Cover Crops for Pollinator Habitat Provision and Weed Suppression

Contact Info

Product

Resources

About

Mike Arduser

The city as a refuge for insect pollinators

Pollination ecology of Cypripedium reginae Walter (Orchidaceae): size matters

The Pollination Biology of an Annual Endemic Herb, Physaria filiformis (Brassicaceae), in the Missouri Ozarks Following Controlled Burns1

﻿A review of the Augochloropsis (Hymenoptera, Halictidae) and keys to the shiny green Halictinae of the midwestern United States

Efficacy of Cover Crops for Pollinator Habitat Provision and Weed Suppression

Contact Info

Product

Resources

About

The Pollination Biology of an Annual Endemic Herb, Physaria filiformis (Brassicaceae), in the Missouri Ozarks Following Controlled Burns¹

A review of the Augochloropsis (Hymenoptera, Halictidae) and keys to the shiny green Halictinae of the midwestern United States