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Preliminary assessment of the scope and scale of illegal killing and taking of birds in the Mediterranean
- ANNE-LAURE BROCHET, WILLEM VAN DEN BOSSCHE, SHARIF JBOUR, P. KARIUKI NDANG’ANG’A, VICTORIA R. JONES, WED ABDEL LATIF IBRAHIM ABDOU, ABDEL RAZZAQ AL- HMOUD, NABEGH GHAZAL ASSWAD, JUAN CARLOS ATIENZA, IMAD ATRASH, NICHOLAS BARBARA, KEITH BENSUSAN, TAULANT BINO, CLAUDIO CELADA, SIDI IMAD CHERKAOUI, JULIETA COSTA, BERNARD DECEUNINCK, KHALED SALEM ETAYEB, CLAUDIA FELTRUP-AZAFZAF, JERNEJ FIGELJ, MARCO GUSTIN, PRIMOŽ KMECL, VLADO KOCEVSKI, MALAMO KORBETI, DRAŽEN KOTROŠAN, JUAN MULA LAGUNA, MATTEO LATTUADA, DOMINGOS LEITÃO, PAULA LOPES, NICOLÁS LÓPEZ-JIMÉNEZ, VEDRAN LUCIĆ, THIERRY MICOL, AÏSSA MOALI, YOAV PERLMAN, NICOLA PILUDU, DANAE PORTOLOU, KSENIJA PUTILIN, GWENAEL QUAINTENNE, GHASSAN RAMADAN-JARADI, MILAN RUŽIĆ, ANNA SANDOR, NERMINA SARAJLI, DARKO SAVELJIĆ, ROBERT D. SHELDON, TASSOS SHIALIS, NIKOS TSIOPELAS, FRAN VARGAS, CLAIRE THOMPSON, ARIEL BRUNNER, RICHARD GRIMMETT, STUART H.M. BUTCHART
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- Journal:
- Bird Conservation International / Volume 26 / Issue 1 / March 2016
- Published online by Cambridge University Press:
- 03 March 2016, pp. 1-28
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Illegal killing/taking of birds is a growing concern across the Mediterranean. However, there are few quantitative data on the species and countries involved. We assessed numbers of individual birds of each species killed/taken illegally in each Mediterranean country per year, using a diverse range of data sources and incorporating expert knowledge. We estimated that 11–36 million individuals per year may be killed/taken illegally in the region, many of them on migration. In each of Cyprus, Egypt, Italy, Lebanon and Syria, more than two million birds may be killed/taken on average each year. For species such as Blackcap Sylvia atricapilla, Common Quail Coturnix coturnix, Eurasian Chaffinch Fringilla coelebs, House Sparrow Passer domesticus and Song Thrush Turdus philomelos, more than one million individuals of each species are estimated to be killed/taken illegally on average every year. Several species of global conservation concern are also reported to be killed/taken illegally in substantial numbers: Eurasian Curlew Numenius arquata, Ferruginous Duck Aythya nyroca and Rock Partridge Alectoris graeca. Birds in the Mediterranean are illegally killed/taken primarily for food, sport and for use as cage-birds or decoys. At the 20 worst locations with the highest reported numbers, 7.9 million individuals may be illegally killed/taken per year, representing 34% of the mean estimated annual regional total number of birds illegally killed/taken for all species combined. Our study highlighted the paucity of data on illegal killing/taking of birds. Monitoring schemes which use systematic sampling protocols are needed to generate increasingly robust data on trends in illegal killing/taking over time and help stakeholders prioritise conservation actions to address this international conservation problem. Large numbers of birds are also hunted legally in the region, but specific totals are generally unavailable. Such data, in combination with improved estimates for illegal killing/taking, are needed for robustly assessing the sustainability of exploitation of birds.
In vitro short-term study of ammonium–nitrogen production from cattle urine: influence of ampicillin, hydroquinone and animal litter materials
- H. NIMENYA, A. DELAUNOIS, S. BLODEN, D. LA DUONG, B. CANART, B. NICKS, P. GUSTIN, M. ANSAY
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- The Journal of Agricultural Science / Volume 135 / Issue 1 / August 2000
- Published online by Cambridge University Press:
- 01 August 2000, pp. 57-64
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The production of NH+4-N following in vitro incubation of cattle urine was monitored for 24 h in the presence of ampicillin sodium salt (0, 32, 64, 128 mg/l), hydroquinone (0, 16·7, 33·4, 66·8 mg/l), wheat straw (0, 3·3, 6·6, 13·2 g/l) or spruce sawdust (0, 3·3, 6·6, 13·2 g/l) with (20 IU) or without urease. Each concentration of ampicillin, hydroquinone, wheat straw or spruce sawdust was tested in triplicate.
The equipment consisted of Woulff flasks containing 300 ml of a buffered solution (0·02 M; pH 7·50) with 1 ml of cattle urine. The cattle urine was characterized by measuring the main nitrogen contents, which were 6·52 mg total-N/ml, 5·96 mg urea-N/ml and 0·026 mg ammonium-N/ml. The initial pH of urine was 7·84. Ammonium and nitrate concentrations, and pH were monitored at zero- time and after 3, 6 and 24 h of incubation with the cattle urine.
The addition of urease to the flasks containing urine induced a significant increase in the production of ammonium-N, from 1·83 to 6·32 mg NH+4-N/flask after 24 h of incubation.
In the presence of urease, an inhibitory effect was recorded in NH+4-N production with ampicillin and spruce sawdust. In contrast, hydroquinone inhibited urease activity and wheat straw adsorbed the NH+4-N produced, both causing a dose-dependent relationship.
In the absence of urease, ampicillin, hydroquinone, wheat straw or spruce sawdust caused a dose- related decrease in NH+4-N production. However, the highest amounts of wheat straw (6·6 and 13·2 g/flask) exhibited a temporary increase in NH+4-N production during the first 6 h. This is probably due to a generation of extra NH+4-N as compared to the control flasks without straw. However, at 24 h, the situation paralleled the other materials.
Although pH increased approximately from 7·50 to 7·65 during the hydrolysis of urea in the presence of urease, no gaseous ammonia was volatilized into a 0·1 M HCl flask. Moreover, no increase in nitrate concentration was found during the incubation.
The present results suggest that ampicillin, hydroquinone and spruce sawdust could be used in order to reduce NH+4-N production from cattle urine. The NH+4-N already produced could probably be absorbed on wheat straw.