Hüseyin Özbek scite author profile

In this study, we analyze the complexity of plant spatial patterns and diversity along a successional gradient resulting from grazing disturbance in four characteristic ecosystems of the Mediterranean region. Grazing disturbance include not only defoliation by animals, but also associated disturbances as animal trampling, soil compaction, and mineralization by deposition of urine and feces. The results show that woodland and dense matorral are more resistant to species loss than middle dense and scattered matorral, or grassland. Information fractal dimension declined as we moved from a dense to a discontinuous matorral, increasing as we moved to a more scattered matorral and a grassland. In all studied cases, the characteristic species of the natural vegetation declined in frequency and organization with grazing disturbance. Heliophyllous species and others with postrate or rosette twigs increased with grazing pressure, particularly in dense matorral. In the more degraded ecosystem, only species with well-adapted traits, e.g., buried buds or unpalatable qualities showed a clear increase with grazing. Indeed, the homogeneity of species distribution within the plant community declined monotonically with grazing impact. Conversely, the spatial organization of the characteristic plants of each community increased in the better-preserved areas, being also related to the sensitivity of the species to grazing impact. The degree of autocorrelation of plant spatial distribution at the species level and the information fractal dimension at the community level allow us to quantify the degree of degradation of natural communities and to determine the sensitivity of key species to disturbance.

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A Review of Insects and Mites Associated With Roses in Turkey

Özbek¹,

Çalmaşur²

2005

Acta Hortic.

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Myristic Acid Inhibits the Activity of the Bacterial ABC Transporter BmrA

Oepen

Özbek

Schüffler

et al. 2021

IJMS

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ATP-binding cassette (ABC) transporters are conserved in all kingdoms of life, where they transport substrates against a concentration gradient across membranes. Some ABC transporters are known to cause multidrug resistances in humans and are able to transport chemotherapeutics across cellular membranes. Similarly, BmrA, the ABC transporter of Bacillus subtilis, is involved in excretion of certain antibiotics out of bacterial cells. Screening of extract libraries isolated from fungi revealed that the C14 fatty acid myristic acid has an inhibitory effect on the BmrA ATPase as well as the transport activity. Thus, a natural membrane constituent inhibits the BmrA activity, a finding with physiological consequences as to the activity and regulation of ABC transporter activities in biological membranes.

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Monitoring Tools to Assess Vegetation Successional Regression and Predict Catastrophic Shifts and Desertification in Mediterranean Rangeland Ecosystems

Alados¹,

El-Aich

Papanastasis

et al.

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Hüseyin Özbek

Change in plant spatial patterns and diversity along the successional gradient of Mediterranean grazing ecosystems

A Review of Insects and Mites Associated With Roses in Turkey

Myristic Acid Inhibits the Activity of the Bacterial ABC Transporter BmrA

Monitoring Tools to Assess Vegetation Successional Regression and Predict Catastrophic Shifts and Desertification in Mediterranean Rangeland Ecosystems

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