Abnormalities in the tracheal gills of aquatic insects collected from streams receiving chlorinated or crude oil wastes

SUMMARY. Altered tracheal gills were found on some specimens of Phasganophora capitata (Plecoptera: Perlidae) and net-spinning caddisflies (Trichoptera: Hydropsychidae) collected from streams in New York State. At one location only the basal portion remained of the normally highly-branched structures. At another location the gills were impregnated with a tar-like substance. Chlorine and crude oil are the suspected causal agents.     

Studies on the Relation Between Net Photosynthesis and Nitrogenase-linked Respiration in Subterranean Clover

The relation between the rate of nitrogenase-linked respirationand net photosynthesis, and the effect of defoliation on thisrelation, was studied in plants of subterranean clover (Trifoliumsubterraneum L. cv. Seaton Park). Nitrogenase-linked respirationwas estimated as the difference between the rate of nodulatedroot respiration at 21% O₂ and at 3% O₂. The level to which the rate of nitrogenase-linked respirationfell several hours after defoliation was directly proportionalto the decline in the rate of net photosynthesis. Approximately9% of net photosynthesis was always expended in nitrogenaseactivity, irrespective of whether or not the plants were defoliated.This proportion was maintained during the first 3 d of regrowth. To determine whether the decline in nitrogenase-linked respirationafter defoliation was due solely to the decline in the rateof photosynthesis, a further experiment was conducted in whichthe pre-defoliation rate of net photosynthesis was restoredimmediately (with supplementary light) or within 5 min (supplementarylight and CO₂) after defoliation. Restoring the rate of netphotosynthesis did not prevent the post-defoliation declinein nitrogenase-linked respiration. However, when photosynthesiswas reduced to zero by the imposition of darkness, and the rateof nitrogenase-linked respiration allowed to decline to a steadyrate after 3 h, a rapid recovery in the rate of nodulated rootrespiration began within 2 h of returning the plants to thelight. It was hypothesized that a ‘shoot factor’,which was affected by defoliation, could override the apparentrelation between nitrogenase-linked respiration and the rateof current photosynthesis. Key words: Defoliation, N₂ fixation, photosynthesis, nitrogenase-linked respiration, subterranean clover     

Evidence of widespread effects of ozone on crops and (semi‐)natural vegetation in Europe (1990–2006) in relation to AOT40‐ and flux‐based risk maps

Records of effects of ambient ozone pollution on vegetation have been compiled for Europe for the years 1990–2006. Sources include scientific papers, conference proceedings, reports to research funders, records of confirmed ozone injury symptoms and an international biomonitoring experiment coordinated by the ICP Vegetation. The latter involved ozone‐sensitive (NC‐S) and ozone‐resistant (NC‐R) biotypes of white clover (Trifolium repens L.) grown according to a common protocol and monitored for ozone injury and biomass differences in 17 European countries, from 1996 to 2006. Effects were separated into visible injury or growth/yield reduction. Of the 644 records of visible injury, 39% were for crops (27 species), 38.1% were for (semi‐) natural vegetation (95 species) and 22.9% were for shrubs (49 species). Owing to inconsistencies in reporting effort from year to year it was not possible to determine geographical or temporal trends in the data. Nevertheless, this study has shown effects in ambient air in 18 European countries from Sweden in the north to Greece in the south. These effects data were superimposed on AOT40 (accumulated ozone concentrations over 40 ppb) and POD3_gen (modelled accumulated stomatal flux over a threshold of 3 nmol m^?2 s^?1) maps generated by the EMEP Eulerian model (50 km × 50 km grid) that were parameterized for a generic crop based on wheat and NC‐S/NC‐R white clover. Many effects were found in areas where the AOT40 (crops) was below the critical level of 3 ppm h. In contrast, the majority of effects were detected in grid squares where POD3_gen (crops) were in the mid‐high range (>12 mmol m^?2). Overall, maps based on POD3_gen provided better fit to the effects data than those based on AOT40, with the POD3_gen model for clover fitting the clover effects data better than that for a generic crop.     

Regrowth by Swards of Subterranean Clover after Defoliation. 1. Growth, Non-structural Carbohydrate and Nitrogen Content

Swards of subterranean clover (Trifolium subterraneum L.) atLAl 6 grown in N-free nutrient solution were subjected to threedefoliation treatments which removed 30, 70 and 80% of shootdry weight. Subsequent regrowth and changes in the concentrationsof carbohydrate and nitrogen in plant components were measuredat 0, 1, 5, 9 and 13 d after defoliation and compared with thosein uncut swards. The rate of shoot regrowth declined with increasing severilyof defoliation. In all defoliation treatments, growth was confinedto leaves for up to 5 d. Root growth ceased in all treatmentsfor a longer period. Reestablishment of the leaf area in severely-defoliatedswards was facilitated by the rapid opening of developing leavesand by changes in the allocation of carbon which favoured leafover branch and root, and lamina over petiole growth. Loss of carbohydrate and nitrogen from roots and branches lasting5–9 d was observed in the more severe defoliation treatments.Loss of protein (N x 6.25) exceeded that of total non-structuralcarbohydrate, and could have accounted for the nitrogen contentof new leaf during this period. Branches lost 62% of their initialcarbohydrate content compared with 25% from roots in the 80%cut swards. In contrast, roots, by virtue of their greater mass,were the principle source of mobilized nitrogen. Nitrogen accumulationceased in 80% cut swards for 9 d. However, carbohydrate levelsin the crown nodules were not severely depleted. It was concluded that partitioning of growth to lamina and themobilization of carbohydrates and nitrogen were important forrecovery from defoliation. Carbohydrates, carbon partitioning, defoliation, nitrogen, mobilization, regrowth, subterranean clover, Trifolium subterraneum L