L.H.T. Vergeer scite author profile

Seagrasses are declining all over the world, resulting in a substantial loss of biodiversity, coastal sediment stabilization and nursery areas of economically important fish. The seagrass decline has often been associated with increasing eutrophication of coastal areas. We tested possible toxic effects of high nitrogen concentrations in the water layer on the seagrass Zostera marina L., which is often the sole higher plant inhabiting coastal zones in the northern hemisphere. Plants grown in either mud or sand were subjected to various water ammonium and nitrate concentrations, whereby ammonium and nitrate supply were balanced (both 25 pM or 75 PM), or unbalanced (ammonium 125 pM and nitrate 25 pM, and vice versa). We used 2 temperatures, 15 and 20°C. Analyses were made after 2 and 5 wk of exposure. In an additional experiment, 9 pM ammonium and 3 yM nitrate were supplied. An ammonium concentration of 125 pM in the water layer was toxic for 2. marina: the plants became necrotic within 2 wk. After 5 wk, plants in all treatments except for the 9 pM treatment were either necrotic or had died. This suggests that toxicity occurs at ammonium concentrations as low as 25 pM. Nitrate treatment had no effect. Ammonium toxicity effects were more pronounced in plants grown on sand and at the higher temperature. It is argued that the ammonium toxicity effects on Z. marina are expected to be strongest in autumn when irradiance decreases, temperature is still high, and ambient ammonium concentrations rise.

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The ‘wasting disease’ and the effect of abiotic factors (light intensity, temperature, salinity) and infection with Labyrinthula zosterae on the phenolic content of Zostera marina shoots

Vergeer

1995

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Phenolic contents of submerged, emergent and floating leaves of aquatic and semi‐aquatic macrophyte species: why do they differ?

Smolders¹,

Vergeer²,

Velde³

et al. 2000

Oikos

107

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2000.Phenolic contents of submerged, emergent and floating leaves of aquatic and semiaquatic macrophyte species: why do they differ? -Oikos 91: 307 -310.The phenolic content of leaves of 40 aquatic and semi-aquatic plant species, collected from stands distributed over the Netherlands was investigated. Species with submerged leaves showed a significantly lower phenolic content than species with emergent or floating leaves; the latter two showing no significant differences. Possible explanations for the observed differences are discussed in relation to defence strategies.

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Phenolic acids in healthy and infected leaves of Zostera marina and their growth-limiting properties towards Labyrinthula zosterae

Vergeer

Develi

1997

Aquatic Botany

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Omnipresence of Labyrinthulaceae in seagrasses

Vergeer

Hartog

1994

Aquatic Botany

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L.H.T. Vergeer

Ammonium toxicity in eelgrass Zostera marina

The ‘wasting disease’ and the effect of abiotic factors (light intensity, temperature, salinity) and infection with Labyrinthula zosterae on the phenolic content of Zostera marina shoots

Phenolic contents of submerged, emergent and floating leaves of aquatic and semi‐aquatic macrophyte species: why do they differ?

Phenolic acids in healthy and infected leaves of Zostera marina and their growth-limiting properties towards Labyrinthula zosterae

Omnipresence of Labyrinthulaceae in seagrasses

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