Mortes súbitas em bovinos associadas à carência de cobre

Autores
Marques, Ana Paula; Riet Correa, Franklin; Soares, Mauro Pereira; Ortolani, Enrico Lippi; Giuliodori, Mauricio Javier
Año de publicación
2003
Idioma
portugués
Tipo de recurso
artículo
Estado
versión publicada
Descripción
An outbreak of sudden death was observed in cattle in southern Brazil. No significant gross or microscopic lesions were found in 10 cattle at post-mortem examination. To test if the sudden deaths were caused by a toxic plant, 13 weeds were collected and given to rabbits at a total of 440 to 600 g per kg body weight within 7 days. Results were negative. Mean copper levels of the liver in 10 cattle were very low (3.6±1.6 ppm-dry matter) suggesting Cu deficiency as the cause of the disease. Five samples of pasture collected during the outbreak had normal levels of Cu (8.4±0.8 ppm-d.m.) and S (0.2%±0.03-d.m.), but high levels of Fe (522±122 ppm-d.m.). One group of 10 heifers was supplemented with Cu subcutaneously. This group and a similar control group were maintained in the same area where the outbreak occurred. Serum levels of Cu, S, Fe, Mo and ceruloplasmin were determined bimonthly in both groups during one year. Mean serum levels of Cu (1.76±1.06 to 10.34±3.1 μmol/l for the control group and 3.86±1.53 to 10.61±1.34 μmol/l for the treated group) and ceruloplasmin (6.59±3.93 to 18.61±4.14 mg/l for the control group and 10.31±5.48 to 32.49±6.05 mg/l for the treated group) were significantly higher in the supplemented group (P=0.0046 for Cu and P=0.0001 for ceruloplasmin), but they were below normal levels in most samples of both groups. Serum levels of Cu and ceruloplasmin were correlated (r=0.67; P=00.5). In both groups serum levels of Fe (40.09±5.25 to 78.48±28.23 μmol/l) were higher than normal levels. Samples of forage were collected bimonthly for determination of Cu, Mo, S, Fe and protein in 7 points of the paddock where the outbreak occurred. Levels of Cu (1.36±0.56 to 4.76±1.15 ppm-d.m.) were below the normal ranges. The concentration of Mo (0.17±0.06 to 0.96±0.47 ppm-d.m.) was within normal ranges. Levels of S (0.21±0.04% to 0.5±0.17%) and Fe (172.92±62.64 to 437.24±205.44 ppm-d.m.) were occasionally within toxic level. Levels of protein varied from 7.77±2.6% to 13.16±3.02%. Six samples of water and six of submersed pastures were collected at the end of the experiment when the paddock was flooded. High levels of iron (169.23±83.49 ppm-d.m. ) and S (0.06±0.03%) were found in the water. Levels of Fe and S in the submerse pasture were of 469.3±218.28 ppm and 0.19±0.05%, respectively. The results obtained suggest that the sudden deaths are due to Cu deficiency. Three factors seem to be responsible for the Cu deficiency: 1) high levels of iron in pastures and water; 2) occasionally low levels of copper in the pastures; and 3) the ingestion of S above the requirements due to the levels occasionally high in pastures and high in water. The outbreak reported is similar to other outbreaks of sudden deaths associated with low liver copper previously reported during winter in the same region of southern Brazil. This area is characterized by acid sandy soils with frequent flooding during this season. In periodically flooded acid soils iron is solubilized and absorbed by the plants, decreasing the Cu content and increasing the Fe content of forage. This seems to be the main reason for Cu deficiency in the region.
An outbreak of sudden death was observed in cattle in southern Brazil. No significant gross or microscopic lesions were found in 10 cattle at post-mortem examination. To test if the sudden deaths were caused by a toxic plant, 13 weeds were collected and given to rabbits at a total of 440 to 600 g per kg body weight within 7 days. Results were negative. Mean copper levels of the liver in 10 cattle were very low (3.6±1.6 ppm-dry matter) suggesting Cu deficiency as the cause of the disease. Five samples of pasture collected during the outbreak had normal levels of Cu (8.4±0.8 ppm-d.m.) and S (0.2%±0.03-d.m.), but high levels of Fe (522±122 ppm-d.m.). One group of 10 heifers was supplemented with Cu subcutaneously. This group and a similar control group were maintained in the same area where the outbreak occurred. Serum levels of Cu, S, Fe, Mo and ceruloplasmin were determined bimonthly in both groups during one year. Mean serum levels of Cu (1.76±1.06 to 10.34±3.1 μmol/l for the control group and 3.86±1.53 to 10.61±1.34 μmol/l for the treated group) and ceruloplasmin (6.59±3.93 to 18.61±4.14 mg/l for the control group and 10.31±5.48 to 32.49±6.05 mg/l for the treated group) were significantly higher in the supplemented group (P=0.0046 for Cu and P=0.0001 for ceruloplasmin), but they were below normal levels in most samples of both groups. Serum levels of Cu and ceruloplasmin were correlated (r=0.67; P=00.5). In both groups serum levels of Fe (40.09±5.25 to 78.48±28.23 μmol/l) were higher than normal levels. Samples of forage were collected bimonthly for determination of Cu, Mo, S, Fe and protein in 7 points of the paddock where the outbreak occurred. Levels of Cu (1.36±0.56 to 4.76±1.15 ppm-d.m.) were below the normal ranges. The concentration of Mo (0.17±0.06 to 0.96±0.47 ppm-d.m.) was within normal ranges. Levels of S (0.21±0.04% to 0.5±0.17%) and Fe (172.92±62.64 to 437.24±205.44 ppm-d.m.) were occasionally within toxic level. Levels of protein varied from 7.77±2.6% to 13.16±3.02%. Six samples of water and six of submersed pastures were collected at the end of the experiment when the paddock was flooded. High levels of iron (169.23±83.49 ppm-d.m. ) and S (0.06±0.03%) were found in the water. Levels of Fe and S in the submerse pasture were of 469.3±218.28 ppm and 0.19±0.05%, respectively. The results obtained suggest that the sudden deaths are due to Cu deficiency. Three factors seem to be responsible for the Cu deficiency: 1) high levels of iron in pastures and water; 2) occasionally low levels of copper in the pastures; and 3) the ingestion of S above the requirements due to the levels occasionally high in pastures and high in water. The outbreak reported is similar to other outbreaks of sudden deaths associated with low liver copper previously reported during winter in the same region of southern Brazil. This area is characterized by acid sandy soils with frequent flooding during this season. In periodically flooded acid soils iron is solubilized and absorbed by the plants, decreasing the Cu content and increasing the Fe content of forage. This seems to be the main reason for Cu deficiency in the region.
Facultad de Ciencias Veterinarias
Materia
Ciencias Veterinarias
cattle
ceruloplasmin blood level
copper deficiency
epidemic
iron
iron blood level
molibdenum
Bos taurus
sudden death
Oryctolagus cuniculus
sulfur
Brasil
Nivel de accesibilidad
acceso abierto
Condiciones de uso
http://creativecommons.org/licenses/by-nc/3.0/
Repositorio
SEDICI (UNLP)
Institución
Universidad Nacional de La Plata
OAI Identificador
oai:sedici.unlp.edu.ar:10915/35803
Acceder
id SEDICI_ef9cd2ee73da30ea5effccbb2ef8e095
oai_identifier_str oai:sedici.unlp.edu.ar:10915/35803
network_acronym_str SEDICI
repository_id_str 1329
network_name_str SEDICI (UNLP)
spelling Mortes súbitas em bovinos associadas à carência de cobreSudden deaths in cattle associated with copper deficiencyMarques, Ana PaulaRiet Correa, FranklinSoares, Mauro PereiraOrtolani, Enrico LippiGiuliodori, Mauricio JavierCiencias Veterinariascattleceruloplasmin blood levelcopper deficiencyepidemicironiron blood levelmolibdenumBos taurussudden deathOryctolagus cuniculussulfurBrasilAn outbreak of sudden death was observed in cattle in southern Brazil. No significant gross or microscopic lesions were found in 10 cattle at post-mortem examination. To test if the sudden deaths were caused by a toxic plant, 13 weeds were collected and given to rabbits at a total of 440 to 600 g per kg body weight within 7 days. Results were negative. Mean copper levels of the liver in 10 cattle were very low (3.6±1.6 ppm-dry matter) suggesting Cu deficiency as the cause of the disease. Five samples of pasture collected during the outbreak had normal levels of Cu (8.4±0.8 ppm-d.m.) and S (0.2%±0.03-d.m.), but high levels of Fe (522±122 ppm-d.m.). One group of 10 heifers was supplemented with Cu subcutaneously. This group and a similar control group were maintained in the same area where the outbreak occurred. Serum levels of Cu, S, Fe, Mo and ceruloplasmin were determined bimonthly in both groups during one year. Mean serum levels of Cu (1.76±1.06 to 10.34±3.1 μmol/l for the control group and 3.86±1.53 to 10.61±1.34 μmol/l for the treated group) and ceruloplasmin (6.59±3.93 to 18.61±4.14 mg/l for the control group and 10.31±5.48 to 32.49±6.05 mg/l for the treated group) were significantly higher in the supplemented group (P=0.0046 for Cu and P=0.0001 for ceruloplasmin), but they were below normal levels in most samples of both groups. Serum levels of Cu and ceruloplasmin were correlated (r=0.67; P=00.5). In both groups serum levels of Fe (40.09±5.25 to 78.48±28.23 μmol/l) were higher than normal levels. Samples of forage were collected bimonthly for determination of Cu, Mo, S, Fe and protein in 7 points of the paddock where the outbreak occurred. Levels of Cu (1.36±0.56 to 4.76±1.15 ppm-d.m.) were below the normal ranges. The concentration of Mo (0.17±0.06 to 0.96±0.47 ppm-d.m.) was within normal ranges. Levels of S (0.21±0.04% to 0.5±0.17%) and Fe (172.92±62.64 to 437.24±205.44 ppm-d.m.) were occasionally within toxic level. Levels of protein varied from 7.77±2.6% to 13.16±3.02%. Six samples of water and six of submersed pastures were collected at the end of the experiment when the paddock was flooded. High levels of iron (169.23±83.49 ppm-d.m. ) and S (0.06±0.03%) were found in the water. Levels of Fe and S in the submerse pasture were of 469.3±218.28 ppm and 0.19±0.05%, respectively. The results obtained suggest that the sudden deaths are due to Cu deficiency. Three factors seem to be responsible for the Cu deficiency: 1) high levels of iron in pastures and water; 2) occasionally low levels of copper in the pastures; and 3) the ingestion of S above the requirements due to the levels occasionally high in pastures and high in water. The outbreak reported is similar to other outbreaks of sudden deaths associated with low liver copper previously reported during winter in the same region of southern Brazil. This area is characterized by acid sandy soils with frequent flooding during this season. In periodically flooded acid soils iron is solubilized and absorbed by the plants, decreasing the Cu content and increasing the Fe content of forage. This seems to be the main reason for Cu deficiency in the region.An outbreak of sudden death was observed in cattle in southern Brazil. No significant gross or microscopic lesions were found in 10 cattle at post-mortem examination. To test if the sudden deaths were caused by a toxic plant, 13 weeds were collected and given to rabbits at a total of 440 to 600 g per kg body weight within 7 days. Results were negative. Mean copper levels of the liver in 10 cattle were very low (3.6±1.6 ppm-dry matter) suggesting Cu deficiency as the cause of the disease. Five samples of pasture collected during the outbreak had normal levels of Cu (8.4±0.8 ppm-d.m.) and S (0.2%±0.03-d.m.), but high levels of Fe (522±122 ppm-d.m.). One group of 10 heifers was supplemented with Cu subcutaneously. This group and a similar control group were maintained in the same area where the outbreak occurred. Serum levels of Cu, S, Fe, Mo and ceruloplasmin were determined bimonthly in both groups during one year. Mean serum levels of Cu (1.76±1.06 to 10.34±3.1 μmol/l for the control group and 3.86±1.53 to 10.61±1.34 μmol/l for the treated group) and ceruloplasmin (6.59±3.93 to 18.61±4.14 mg/l for the control group and 10.31±5.48 to 32.49±6.05 mg/l for the treated group) were significantly higher in the supplemented group (P=0.0046 for Cu and P=0.0001 for ceruloplasmin), but they were below normal levels in most samples of both groups. Serum levels of Cu and ceruloplasmin were correlated (r=0.67; P=00.5). In both groups serum levels of Fe (40.09±5.25 to 78.48±28.23 μmol/l) were higher than normal levels. Samples of forage were collected bimonthly for determination of Cu, Mo, S, Fe and protein in 7 points of the paddock where the outbreak occurred. Levels of Cu (1.36±0.56 to 4.76±1.15 ppm-d.m.) were below the normal ranges. The concentration of Mo (0.17±0.06 to 0.96±0.47 ppm-d.m.) was within normal ranges. Levels of S (0.21±0.04% to 0.5±0.17%) and Fe (172.92±62.64 to 437.24±205.44 ppm-d.m.) were occasionally within toxic level. Levels of protein varied from 7.77±2.6% to 13.16±3.02%. Six samples of water and six of submersed pastures were collected at the end of the experiment when the paddock was flooded. High levels of iron (169.23±83.49 ppm-d.m. ) and S (0.06±0.03%) were found in the water. Levels of Fe and S in the submerse pasture were of 469.3±218.28 ppm and 0.19±0.05%, respectively. The results obtained suggest that the sudden deaths are due to Cu deficiency. Three factors seem to be responsible for the Cu deficiency: 1) high levels of iron in pastures and water; 2) occasionally low levels of copper in the pastures; and 3) the ingestion of S above the requirements due to the levels occasionally high in pastures and high in water. The outbreak reported is similar to other outbreaks of sudden deaths associated with low liver copper previously reported during winter in the same region of southern Brazil. This area is characterized by acid sandy soils with frequent flooding during this season. In periodically flooded acid soils iron is solubilized and absorbed by the plants, decreasing the Cu content and increasing the Fe content of forage. This seems to be the main reason for Cu deficiency in the region.Facultad de Ciencias Veterinarias2003-01info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionArticulohttp://purl.org/coar/resource_type/c_6501info:ar-repo/semantics/articuloapplication/pdf21-32http://sedici.unlp.edu.ar/handle/10915/35803info:eu-repo/semantics/altIdentifier/url/http://www.scielo.br/pdf/pvb/v23n1/a05v23n1.pdfinfo:eu-repo/semantics/altIdentifier/issn/0100-736Xinfo:eu-repo/semantics/openAccesshttp://creativecommons.org/licenses/by-nc/3.0/Creative Commons Attribution-NonCommercial 3.0 Unported (CC BY-NC 3.0)porreponame:SEDICI (UNLP)instname:Universidad Nacional de La Platainstacron:UNLP2026-04-15T11:05:38Zoai:sedici.unlp.edu.ar:10915/35803Institucionalhttp://sedici.unlp.edu.ar/Universidad públicaNo correspondehttp://sedici.unlp.edu.ar/oai/snrdalira@sedici.unlp.edu.arArgentinaNo correspondeNo correspondeNo correspondeopendoar:13292026-04-15 11:05:38.825SEDICI (UNLP) - Universidad Nacional de La Platafalse
dc.title.none.fl_str_mv Mortes súbitas em bovinos associadas à carência de cobre
Sudden deaths in cattle associated with copper deficiency
title Mortes súbitas em bovinos associadas à carência de cobre
spellingShingle Mortes súbitas em bovinos associadas à carência de cobre
Marques, Ana Paula
Ciencias Veterinarias
cattle
ceruloplasmin blood level
copper deficiency
epidemic
iron
iron blood level
molibdenum
Bos taurus
sudden death
Oryctolagus cuniculus
sulfur
Brasil
title_short Mortes súbitas em bovinos associadas à carência de cobre
title_full Mortes súbitas em bovinos associadas à carência de cobre
title_fullStr Mortes súbitas em bovinos associadas à carência de cobre
title_full_unstemmed Mortes súbitas em bovinos associadas à carência de cobre
title_sort Mortes súbitas em bovinos associadas à carência de cobre
dc.creator.none.fl_str_mv Marques, Ana Paula
Riet Correa, Franklin
Soares, Mauro Pereira
Ortolani, Enrico Lippi
Giuliodori, Mauricio Javier
author Marques, Ana Paula
author_facet Marques, Ana Paula
Riet Correa, Franklin
Soares, Mauro Pereira
Ortolani, Enrico Lippi
Giuliodori, Mauricio Javier
author_role author
author2 Riet Correa, Franklin
Soares, Mauro Pereira
Ortolani, Enrico Lippi
Giuliodori, Mauricio Javier
author2_role author
author
author
author
dc.subject.none.fl_str_mv Ciencias Veterinarias
cattle
ceruloplasmin blood level
copper deficiency
epidemic
iron
iron blood level
molibdenum
Bos taurus
sudden death
Oryctolagus cuniculus
sulfur
Brasil
topic Ciencias Veterinarias
cattle
ceruloplasmin blood level
copper deficiency
epidemic
iron
iron blood level
molibdenum
Bos taurus
sudden death
Oryctolagus cuniculus
sulfur
Brasil
dc.description.none.fl_txt_mv An outbreak of sudden death was observed in cattle in southern Brazil. No significant gross or microscopic lesions were found in 10 cattle at post-mortem examination. To test if the sudden deaths were caused by a toxic plant, 13 weeds were collected and given to rabbits at a total of 440 to 600 g per kg body weight within 7 days. Results were negative. Mean copper levels of the liver in 10 cattle were very low (3.6±1.6 ppm-dry matter) suggesting Cu deficiency as the cause of the disease. Five samples of pasture collected during the outbreak had normal levels of Cu (8.4±0.8 ppm-d.m.) and S (0.2%±0.03-d.m.), but high levels of Fe (522±122 ppm-d.m.). One group of 10 heifers was supplemented with Cu subcutaneously. This group and a similar control group were maintained in the same area where the outbreak occurred. Serum levels of Cu, S, Fe, Mo and ceruloplasmin were determined bimonthly in both groups during one year. Mean serum levels of Cu (1.76±1.06 to 10.34±3.1 μmol/l for the control group and 3.86±1.53 to 10.61±1.34 μmol/l for the treated group) and ceruloplasmin (6.59±3.93 to 18.61±4.14 mg/l for the control group and 10.31±5.48 to 32.49±6.05 mg/l for the treated group) were significantly higher in the supplemented group (P=0.0046 for Cu and P=0.0001 for ceruloplasmin), but they were below normal levels in most samples of both groups. Serum levels of Cu and ceruloplasmin were correlated (r=0.67; P=00.5). In both groups serum levels of Fe (40.09±5.25 to 78.48±28.23 μmol/l) were higher than normal levels. Samples of forage were collected bimonthly for determination of Cu, Mo, S, Fe and protein in 7 points of the paddock where the outbreak occurred. Levels of Cu (1.36±0.56 to 4.76±1.15 ppm-d.m.) were below the normal ranges. The concentration of Mo (0.17±0.06 to 0.96±0.47 ppm-d.m.) was within normal ranges. Levels of S (0.21±0.04% to 0.5±0.17%) and Fe (172.92±62.64 to 437.24±205.44 ppm-d.m.) were occasionally within toxic level. Levels of protein varied from 7.77±2.6% to 13.16±3.02%. Six samples of water and six of submersed pastures were collected at the end of the experiment when the paddock was flooded. High levels of iron (169.23±83.49 ppm-d.m. ) and S (0.06±0.03%) were found in the water. Levels of Fe and S in the submerse pasture were of 469.3±218.28 ppm and 0.19±0.05%, respectively. The results obtained suggest that the sudden deaths are due to Cu deficiency. Three factors seem to be responsible for the Cu deficiency: 1) high levels of iron in pastures and water; 2) occasionally low levels of copper in the pastures; and 3) the ingestion of S above the requirements due to the levels occasionally high in pastures and high in water. The outbreak reported is similar to other outbreaks of sudden deaths associated with low liver copper previously reported during winter in the same region of southern Brazil. This area is characterized by acid sandy soils with frequent flooding during this season. In periodically flooded acid soils iron is solubilized and absorbed by the plants, decreasing the Cu content and increasing the Fe content of forage. This seems to be the main reason for Cu deficiency in the region.
An outbreak of sudden death was observed in cattle in southern Brazil. No significant gross or microscopic lesions were found in 10 cattle at post-mortem examination. To test if the sudden deaths were caused by a toxic plant, 13 weeds were collected and given to rabbits at a total of 440 to 600 g per kg body weight within 7 days. Results were negative. Mean copper levels of the liver in 10 cattle were very low (3.6±1.6 ppm-dry matter) suggesting Cu deficiency as the cause of the disease. Five samples of pasture collected during the outbreak had normal levels of Cu (8.4±0.8 ppm-d.m.) and S (0.2%±0.03-d.m.), but high levels of Fe (522±122 ppm-d.m.). One group of 10 heifers was supplemented with Cu subcutaneously. This group and a similar control group were maintained in the same area where the outbreak occurred. Serum levels of Cu, S, Fe, Mo and ceruloplasmin were determined bimonthly in both groups during one year. Mean serum levels of Cu (1.76±1.06 to 10.34±3.1 μmol/l for the control group and 3.86±1.53 to 10.61±1.34 μmol/l for the treated group) and ceruloplasmin (6.59±3.93 to 18.61±4.14 mg/l for the control group and 10.31±5.48 to 32.49±6.05 mg/l for the treated group) were significantly higher in the supplemented group (P=0.0046 for Cu and P=0.0001 for ceruloplasmin), but they were below normal levels in most samples of both groups. Serum levels of Cu and ceruloplasmin were correlated (r=0.67; P=00.5). In both groups serum levels of Fe (40.09±5.25 to 78.48±28.23 μmol/l) were higher than normal levels. Samples of forage were collected bimonthly for determination of Cu, Mo, S, Fe and protein in 7 points of the paddock where the outbreak occurred. Levels of Cu (1.36±0.56 to 4.76±1.15 ppm-d.m.) were below the normal ranges. The concentration of Mo (0.17±0.06 to 0.96±0.47 ppm-d.m.) was within normal ranges. Levels of S (0.21±0.04% to 0.5±0.17%) and Fe (172.92±62.64 to 437.24±205.44 ppm-d.m.) were occasionally within toxic level. Levels of protein varied from 7.77±2.6% to 13.16±3.02%. Six samples of water and six of submersed pastures were collected at the end of the experiment when the paddock was flooded. High levels of iron (169.23±83.49 ppm-d.m. ) and S (0.06±0.03%) were found in the water. Levels of Fe and S in the submerse pasture were of 469.3±218.28 ppm and 0.19±0.05%, respectively. The results obtained suggest that the sudden deaths are due to Cu deficiency. Three factors seem to be responsible for the Cu deficiency: 1) high levels of iron in pastures and water; 2) occasionally low levels of copper in the pastures; and 3) the ingestion of S above the requirements due to the levels occasionally high in pastures and high in water. The outbreak reported is similar to other outbreaks of sudden deaths associated with low liver copper previously reported during winter in the same region of southern Brazil. This area is characterized by acid sandy soils with frequent flooding during this season. In periodically flooded acid soils iron is solubilized and absorbed by the plants, decreasing the Cu content and increasing the Fe content of forage. This seems to be the main reason for Cu deficiency in the region.
Facultad de Ciencias Veterinarias
description An outbreak of sudden death was observed in cattle in southern Brazil. No significant gross or microscopic lesions were found in 10 cattle at post-mortem examination. To test if the sudden deaths were caused by a toxic plant, 13 weeds were collected and given to rabbits at a total of 440 to 600 g per kg body weight within 7 days. Results were negative. Mean copper levels of the liver in 10 cattle were very low (3.6±1.6 ppm-dry matter) suggesting Cu deficiency as the cause of the disease. Five samples of pasture collected during the outbreak had normal levels of Cu (8.4±0.8 ppm-d.m.) and S (0.2%±0.03-d.m.), but high levels of Fe (522±122 ppm-d.m.). One group of 10 heifers was supplemented with Cu subcutaneously. This group and a similar control group were maintained in the same area where the outbreak occurred. Serum levels of Cu, S, Fe, Mo and ceruloplasmin were determined bimonthly in both groups during one year. Mean serum levels of Cu (1.76±1.06 to 10.34±3.1 μmol/l for the control group and 3.86±1.53 to 10.61±1.34 μmol/l for the treated group) and ceruloplasmin (6.59±3.93 to 18.61±4.14 mg/l for the control group and 10.31±5.48 to 32.49±6.05 mg/l for the treated group) were significantly higher in the supplemented group (P=0.0046 for Cu and P=0.0001 for ceruloplasmin), but they were below normal levels in most samples of both groups. Serum levels of Cu and ceruloplasmin were correlated (r=0.67; P=00.5). In both groups serum levels of Fe (40.09±5.25 to 78.48±28.23 μmol/l) were higher than normal levels. Samples of forage were collected bimonthly for determination of Cu, Mo, S, Fe and protein in 7 points of the paddock where the outbreak occurred. Levels of Cu (1.36±0.56 to 4.76±1.15 ppm-d.m.) were below the normal ranges. The concentration of Mo (0.17±0.06 to 0.96±0.47 ppm-d.m.) was within normal ranges. Levels of S (0.21±0.04% to 0.5±0.17%) and Fe (172.92±62.64 to 437.24±205.44 ppm-d.m.) were occasionally within toxic level. Levels of protein varied from 7.77±2.6% to 13.16±3.02%. Six samples of water and six of submersed pastures were collected at the end of the experiment when the paddock was flooded. High levels of iron (169.23±83.49 ppm-d.m. ) and S (0.06±0.03%) were found in the water. Levels of Fe and S in the submerse pasture were of 469.3±218.28 ppm and 0.19±0.05%, respectively. The results obtained suggest that the sudden deaths are due to Cu deficiency. Three factors seem to be responsible for the Cu deficiency: 1) high levels of iron in pastures and water; 2) occasionally low levels of copper in the pastures; and 3) the ingestion of S above the requirements due to the levels occasionally high in pastures and high in water. The outbreak reported is similar to other outbreaks of sudden deaths associated with low liver copper previously reported during winter in the same region of southern Brazil. This area is characterized by acid sandy soils with frequent flooding during this season. In periodically flooded acid soils iron is solubilized and absorbed by the plants, decreasing the Cu content and increasing the Fe content of forage. This seems to be the main reason for Cu deficiency in the region.
publishDate 2003
dc.date.none.fl_str_mv 2003-01
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