Susan K. Russell scite author profile

To explore how plants may influence dispersal of their own seeds by manipulating the behavior and physiology of their dispersers, we studied the effect of a soluble chemical (or chemicals) in the fruits of Witheringia solanacea (Solanaceae), a Costa Rican cloud forest shrub, on passage of its seeds through the guts of one of its major dispersers, the Black—faced Solitaire, Myadestes melanops (Muscicapidae: Turdinae). Using artificial fruits containing natural seeds, we found that the presence of a crude pulp extract reduced the median seed retention time by nearly 50%. Estimation of seed dispersal distance as a function of retention time suggested that more rapid seed passage results in shorter average dispersal distances, especially for seeds retained <20 min. At the same time, germination trials revealed that seeds voided rapidly were far more likely to germinate than those remaining longer in Myadestes guts. We propose that “laxative” chemical(s) in Witheringia fruits balance these positive and negative consequences of ingestion by Myadestes.

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Effects of Microhabitat Patchiness on Patterns of Seed Dispersal and Seed Predation of Cercocarpus ledifolius (Rosaceae)

Russell¹,

Schupp²

1998

Oikos

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Factors associated with treatment failure of patients with psychiatric diseases and injecting drug users in the treatment of genotype 2 or 3 hepatitis C chronic infection

Alvarez-Uria

Day

Nasir

et al. 2009

Liver International

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Reduction in Neutrophil Count During Hepatitis C Treatment: Drug Toxicity or Predictor of Good Response?

et al. 2009

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Reproductive Biology of Curlleaf Mountain Mahogany, Cercocarpus ledifolius (Rosaceae): Self‐compatibility, Pollen Limitation, and Wind Pollination

Russell

Schupp

Tepedino

1998

Plant Species Biology

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In this study, we explore the reproductive biology of Cercocarpus ledifolius (Rosaceae), a species showing extremely limited recruitment throughout its range in the Intermountain West, USA. We examined (1 1 self-compatibility, (2) the potential for wind pollination, (3) pollen limitation of seed production, and (4) loss of developing seeds. Through hand-pollination experiments, we determined that C. ledifolius flowers are highly self-compatible. Abundant seeds were produced from flowers pollinated with pollen from the same plant, and the level of seed production did not differ from control outcrossed treatments. Furthermore, we measured substantial airborne pollen loads within C. ledifolius stands, indicating transport of pollen via wind and a strong potential for wind pollination, despite apparent adaptations for insect pollination. Pollen did not limit seed production; branches on which all flowers were handpollinated with outcrossed pollen did not have greater seed production than control branches open only to natural pollination. Lastly, virtually all initiated seeds developed t o maturity, indicating low seed abortion rates and minimal loss t o pre-dispersal seed predators. Natural levels of fruit production were at or greater than mean fruit production for woody perennials. In summary, we found no evidence that the quantity of pollen, the source of pollen (self vs. outcrossed), or developing seed loss is seriously limiting recruitment of this species.

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Susan K. Russell

Fruit Laxatives and Seed Passage Rates in Frugivores: Consequences for Plant Reproductive Success

Effects of Microhabitat Patchiness on Patterns of Seed Dispersal and Seed Predation of Cercocarpus ledifolius (Rosaceae)

Factors associated with treatment failure of patients with psychiatric diseases and injecting drug users in the treatment of genotype 2 or 3 hepatitis C chronic infection

Reduction in Neutrophil Count During Hepatitis C Treatment: Drug Toxicity or Predictor of Good Response?

Reproductive Biology of Curlleaf Mountain Mahogany, Cercocarpus ledifolius (Rosaceae): Self‐compatibility, Pollen Limitation, and Wind Pollination

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