Scott Ruhren scite author profile

Many plants secrete nectar from extrafloral nectaries (EFNs), specialized structures that usually attract ants which can act as plant defenders. We examined the nectar-mediated interactions between Chamaecrista nictitans (Caesalpineaceae) and jumping spiders (Araneae, Salticidae) for 2 years in old fields in New Jersey, USA. Previous research suggests that spiders are entirely carnivorous, yet jumping spiders (Eris sp. and Metaphidippus sp.) on C. nictitans collected nectar in addition to feeding on herbivores, ants, bees, and other spiders. In a controlled-environment experiment, when given a choice between C. nictitans with or without active EFNs, foraging spiders spent 86% of their time on plants with nectar. C. nictitans with resident jumping spiders did set significantly more seed than plants with no spiders, indicating a beneficial effect from these predators. However, the presence of jumping spiders did not decrease numbers of Sennius cruentatus (Bruchidae), a specialist seed predator of C. nictitans. Jumping spiders may provide additional, unexpected defense to plants possessing EFNs. Plants with EFNs may therefore have beneficial interactions with other arthropod predators in addition to nectar-collecting ants.

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Consequences of the Timing of Seed Release of Erythronium americanum (Liliaceae), a Deciduous Forest Myrmecochore

Ruhren

Dudash

1996

American Journal of Botany

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Herbivory Constrains Survival, Reproduction and Mutualisms When Restoring Nine Temperate Forest Herbs

Ruhren¹,

Handel²

2003

Journal of the Torrey Botanical Society

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Consequences of the timing of seed release of Erythronium americanum (Liliaceae), a deciduous forest myrmecochore

Ruhren

Dudash

1996

American J of Botany

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Myrmecochores are plants with seeds adapted for ant dispersal. This specialized dispersal syndrome may provide Erythronium americanum seeds with protection from predators within the eastern deciduous forests. To determine the adaptive significance of myrmecochory in E. americanum, seed removal rates and seed predation in relation to seed release date and location along the Potomac River in Langley, Virginia, were examined. The number of seeds removed from four exclosure treatments were monitored two times in 1992 and three times in 1993 within floodplain and hilltop populations of E. americanum. Overall, seed removal was greatest from control depots, and E. americanum seeds were removed at nearly the same rate from predator‐exclusion depots, indicating that removal from open depots is largely due to ant removal. Ants removed significantly more seeds than predators in the first 48 h of seed exposure and could potentially remove all E. americanum seeds before nightfall. Aphaenogaster rudis was identified as the primary disperser of E. americanum. Seeds placed in depots after the natural seed release period were discovered more quickly and removed by ants at a significantly higher rate than seeds released at the natural date. These results suggest that ant dispersal of E. americanum seeds reduces the likelihood of seed predation.

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Invasive Species Reconsidered

Ruhren¹

2012

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Scott Ruhren

Jumping spiders (Salticidae) enhance the seed production of a plant with extrafloral nectaries

Consequences of the Timing of Seed Release of Erythronium americanum (Liliaceae), a Deciduous Forest Myrmecochore

Herbivory Constrains Survival, Reproduction and Mutualisms When Restoring Nine Temperate Forest Herbs

Consequences of the timing of seed release of Erythronium americanum (Liliaceae), a deciduous forest myrmecochore

Invasive Species Reconsidered

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