Exile Vol. XIX No. 2

POETRY speckled day by Richard Carothers 3 Looking-Glass by Doug Cox 3 February fog scooves in by H. 8 Surface Tension by Glenn Bard 9 Closing by Doug Cox 10 southwest bazaar by Val Evans 16 Haiku sequence By Suzanne B. Dean 17 summertime by Richard Carothers 18 The Desirability of Being a Line by Laurie Wharton 18 The Blatant Morning by Phil Mercurio 23 sweet nothings by Linda Anderson 23 Alone In Bed by Val Evans 24 Walls and the Fallen Woman by H. 26-27 A Victim of Need by Suzanne B. Dean 28 PHOTOGRAPHY by Tamera Iverson 1, 18 by John Bildahl 9, 15 by Anne G. English 25 by Richard E. Bergen 27 by Bruce Andre 28 ARTWORK The Road to Calvary by Sheila Rollit 4 Norwegian Sadness by Tamera Iverson 11 by Ann Merrill 16 by Jude Hasel 17 by Pat Victory 22 by Wilson R. Baldridge 26 FICTION To My Grandmother by Robb Knuepfer 5-8 First Monday in July by Joe L. Bolster III 12-14 Glad About A Lot Today by John Fergus 19-22 A city stands by Suzanne B. Dean 24-2

Exile Vol. XX No. 1

ARTWORK by Sue Sartarelli cover, 24 by Chris Schulze 5, 24, 29 by Heather Richey 6 by Katheryn Riedl 7 by Jane Joldersma 10 by Jan Mosher 12 Pat Victory 15 Rona Rosen 20, 31 Arthur Ernst 21 Kim McMullen 24 FICTION First Time by Bud Foufos 3-4 Father\u27s Last Party by Vic Coccimiglio 11 untitled by Catherine Bader 16-17 God and Sergeant Mays by J. Frank Burkhard 22 Pages of a Story by Peter Porteous 27-31 POETRY The Rest by Ezra Pound (preface) In the Midst of an Echo by Phil Mercurio 4 Sierra Madre Prose by John Purcell 5 untitled by Sue Payne 6 untitled by Cathy Graff 6 untitled by Sharon Singleton 7 Big Al by Phil Mercurio 9-10 untitled by Sharon Singleton 12 Folksinger by Alison Orleans 13 Sweat Rebellion by S. Hunt 13 Blackgrey by Laurie Wharton 14 What is she to you? by Peter Porteous 18 Pojects by Mary Mueller 21 untitled by Dawn Patnode 25 The Barn by Mary Schloss 25 PHOTOGRAPHY by Bruce Andre 1, 18 by Jane Joldersma 4, 23, 26 by Breese Olander 8 by Pam Purcell 8 by Loree Ruman 13, 14 Foster Schmidt 19 Chip Andreae 19, 23 Nancy Pickenson 26 Nancy Chorpenning 32 Many thanks to the advertising agencie -2 Pgs. 25 and 26 are out of order in the published edition and can be found between pages 8 and 9

Zinc in fish, crabs, oysters, and mangrove flora and fauna from Cleveland Bay

Zinc in muscle tissue from 28 species of fish, three species of sharks and rays, two species of squid and cuttlefish, and three species of crustacea collected from Cleveland Bay, together with some measurements made on oysters and mangrove flora and fauna are reported. In the fish species the mean Zn concentration in muscle tissue was 4.83±2.82 μg/g wet weight, slightly lower than zinc measurements (7 μg/g wet weight) made in 14 fish species collected from the bay in 1975. Zinc in sharks and rays ranged from 3.5 to 7.2 μg/g wet wt, in squid and cuttlefish 13-16 μg/g wet wt, and in crustacea levels ranged from 14 to 18 μg/g wet wt. Zinc levels in fish varied between species with concentrations well below the ANZECC Maximum Residue Limit of zinc in seafood (150 μg/g wet wt). Although lower zinc concentrations were found in oysters collected from the Townsville Harbour area (2080 μg/g wet wt), compared with previous measurements made 25 years ago at this site, these levels are still above the Maximum Residue Limit for zinc in oysters (1000 μg/g wet wt). Concentrations of zinc in oysters from Orpheus Island (2547 μg/g wet wt), about 74 km away from industrial and urban activity, are also above the safe guideline values. Horseshoe Bay oysters transplanted to Ross Creek accumulated zinc at a rate of about 100 μg/g of oyster tissue per week, suggesting that dissolved zinc levels at this site are elevated, and that oysters rapidly accumulate zinc. Highest concentrations of zinc in mangrove leaves (30-65 μg/g dry wt) occurred in Osbornia octodonta, Exocaria agalocha, and Aegialitus annulata, compared with Ceriops tagal, and Avicennia marina (5-10 μg/g dry wt). No significant difference in zinc concentration occurred between leaves and litter fall for most of these species, with the sole exception of Exocaria, which showed almost a twofold increase in concentration. In seven species of mangrove fauna levels of zinc were very uniform and close to 50 μg/g (dry wt) Telescopium telescopium from the mouth of the Ross Estuary was the exception with levels at 400 μg/g (dry wt)

Lethal and sub-lethal chronic effects of the herbicide diuron on seagrass

Photosystem II herbicides from agricultural sources have been detected throughout nearshore tropical habitats including seagrass meadows. While PSII herbicides have been shown to inhibit growth in microalgae at low concentrations, the potential impacts of chronic low concentration exposures to seagrass health and growth have not been investigated. Here we exposed two tropical seagrass species Halodule uninervis and Zostera muelleri to elevated diuron concentrations (from 0.3 to 7.2 μgl^−1) over a 79-day period followed by a 2-week recovery period in uncontaminated seawater. PAM fluorometry demonstrated rapid effect of diuron on photosystem II (PSII) in both seagrass species at 0.3 μg l−1. This effect included significant inhibition of photosynthetic efficiency (ΔF/Fm') and inactivation of PSII (Fv/Fm) over the 11 week exposure period. Significant mortality and reductions in growth was only observed at the highest exposure concentration of 7.2 μg l−1 diuron. However, biochemical indicators demonstrated that the health of seagrass after this prolonged exposure was significantly compromised at lower concentrations. For example, the drop in C:N ratios (0.6 μgl^−1) and reduced δ13C (1.7 μgl^−1) in seagrass leaves indicated reduced C-assimilation from photosynthesis. Critically, the energetic reserves of the plants (as measured by starch content in the root-rhizome complex) were approximately halved following diuron exposure at and above 1.7 μgl^−1. During the 2-week recovery period, the photosynthetic capacity of the seagrass improved with only plants from the highest diuron treatment still exhibiting chronic damage to PSII. This study shows that, although seagrass may survive prolonged herbicide exposures, concentrations ≥0.6 μgl^−1 diuron equivalents cause measureable impacts on energetic status that may leave the plants vulnerable to other simultaneous stressors. For example, tropical seagrasses have been heavily impacted by reduced light from coastal flood plumes and the effects on plant energetics from light limitation and diuron exposure (highest in flood plumes) are very similar, potentially leading to cumulative negative effects

A miniature bioassay for testing the acute phytotoxicity of Photosystem II herbicides on seagrass

Photosystem II (PSII) herbicides have been detected in nearshore tropical waters such as those of the Great Barrier Reef and may add to the pressure posed by runoff containing sediments and nutrients to threatened seagrass habitats. There is a growing number of studies into the potential effects of herbicides on seagrass, generally using large experimental setups with potted plants. Here we describe the successful development of an acute 12-well plate phytotoxicity assay for the PSII herbicide Diuron using isolated Halophila ovalis leaves. Fluorescence images demonstrated Diuron affected the entire leaf surface evenly and responses were not influenced by isolating leaves from the plant. The optimum exposure duration was 24 h, by which time the inhibition of effective quantum yield of PSII (∆F/Fm’) was highest and no deterioration of photosystems was evident in control leaves. The inhibition of ∆F/Fm’ by Diuron in isolated H. ovalis leaves was identical to both potted and hydroponically grown plants (with leaves remaining attached to rhizomes), indicating similar reductions in photosynthetic activity in these acute well-plate assays. The sensitivity of the assay was not influenced by irradiance (range tested 40 to 400 μmol photons m-2 s-1). High irradiance, however, caused photo-oxidative stress in H. ovalis and this generally impacted in an additive or sub-additive way with Diuron to damage PSII. The bioassay using isolated leaves is more rapid, uses far less biological material and does not rely on specialised aquarium facilities in comparison with assays using potted plants. The development and validation of this sensitive bioassay will be useful to reliably screen and monitor the phytotoxicity of existing and emerging PSII herbicides and contribute to risk assessments and water quality guideline development in the future

Diuron concentrations that inhibit 50% (IC₅₀) and 10% (IC₁₀) quantum yields in different sample arrangements of <i>H</i>. <i>ovalis</i>.

<p>Different superscripted letters indicate statistically different IC₅₀ values (p < 0.05).</p><p>Diuron concentrations that inhibit 50% (IC₅₀) and 10% (IC₁₀) quantum yields in different sample arrangements of <i>H</i>. <i>ovalis</i>.</p