FOOD OF RAINBOW TROUT AND CHANGES IN SOIL USE: THE CHILEAN EXAMPLE
TROUT FROM PHYSIOLOGY TO CONSERVATION
| dc.creator | Arismendi Vidal, Ivan Danilo | |
| dc.creator | Bertran Vives, Carlos Enrique | |
| dc.creator | Fierro Retamal, Pablo Ignacio | |
| dc.creator | Hauenstein Barra, Enrique O. | |
| dc.creator | Peña Cortes, Fernando Andres | |
| dc.creator | Quilodrán Ragileo, Loreto | |
| dc.creator | Tapia Sanhueza, Jaime Del Carmen | |
| dc.creator | Vargas Chacoff, Luis Humberto | |
| dc.date | 2016-12-27T21:48:07Z | |
| dc.date | 2022-06-17T21:19:36Z | |
| dc.date | 2016-12-27T21:48:07Z | |
| dc.date | 2022-06-17T21:19:36Z | |
| dc.date | 2013 | |
| dc.date.accessioned | 2023-08-22T01:04:38Z | |
| dc.date.available | 2023-08-22T01:04:38Z | |
| dc.identifier | 1110798 | |
| dc.identifier | 9781624170096 | |
| dc.identifier | https://hdl.handle.net/10533/164829 | |
| dc.identifier.uri | https://repositorioslatinoamericanos.uchile.cl/handle/2250/8303962 | |
| dc.description | Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. Modifications in soil use represent much more than simply a change in the landscape, but may also produce significant changes in water quality because of increases in sediments and nutrients that result from these activities. Additionally, the exotic plantations, which replace the native vegetation, produce changes in the plant material that enter the watercourse. An increase in nutrients and changes in the foreign material, which enter water systems, alter these aquatic systems, resulting in either reduced or enhanced food availability for the species which inhabit them. In some cases, these species represent the fundamental food source of rainbow trout, and thus may result in significant changes in the lifestyle of the trout. This chapter will explore such changes using as a case study, the Chilean situation. | |
| dc.description | FONDECYT | |
| dc.description | 430 | |
| dc.description | FONDECYT | |
| dc.language | eng | |
| dc.publisher | NOVA PUBLISHERS | |
| dc.relation | instname: Conicyt | |
| dc.relation | reponame: Repositorio Digital RI2.0 | |
| dc.relation | instname: Conicyt | |
| dc.relation | reponame: Repositorio Digital RI 2.0 | |
| dc.relation | info:eu-repo/grantAgreement/Fondecyt/1110798 | |
| dc.relation | info:eu-repo/semantics/dataset/hdl.handle.net/10533/93479 | |
| dc.rights | info:eu-repo/semantics/openAccess | |
| dc.title | FOOD OF RAINBOW TROUT AND CHANGES IN SOIL USE: THE CHILEAN EXAMPLE | |
| dc.title | TROUT FROM PHYSIOLOGY TO CONSERVATION | |
| dc.type | Capitulo de libro | |
| dc.type | info:eu-repo/semantics/bookPart |