Shrub packs and irrigation to rehabilitate semiarid regions disturbed by the laying of pipelines
The installation of underground pipelines generally requires the removal of the vegetation cover and has the potential, along with the heavy traffic associated with the installation, to affect the soil quality. In this study we assessed the effect of application of “quilembai” (Chuquiraga avellanedae Lorentz) branches on selected soil properties and vegetation recovery in two sites disturbed by the installation of a pipeline: i) an area where the vegetation and topsoil were removed and affected by heavy machinery traffic (Zone 1), and ii) an area where the vegetation and topsoil were removed and, after the pipeline was installed, they were redistributed over the disturbed area (Zone 2). Branches were applied at two application rates, without or with irrigation. There was also an irrigation treatment and a control. Ten months after the treatments were applied, soil water content, bulk density penetration resistance, infiltration rate, soil organic C and Olsen-P were determined. The density of plants in each plot was determined at the beginning and 10-months post treatment application. The treatment application increased soil water content, although with a varying effect among zones and we did not detect treatment effects on other soil variables. Plant density, mainly that of Nassella tenuis (Phil.) Barkworth, increased in all the treatments with branches of the zone 1, with positive effects of application rates as well as irrigation, while zone 2 did not reveal effects of treatments. Although in 10-months post-application the quilembai branches and irrigation had no significant effects on the soil physical and chemical properties, they increased plant establishment, accelerating the pace of vegetation recovery.
Principais autores: | , |
---|---|
Formato: | Digital revista |
Idioma: | spa |
Publicado em: |
Asociación Argentina de Ecología
2013
|
Acesso em linha: | https://ojs.ecologiaaustral.com.ar/index.php/Ecologia_Austral/article/view/1193 |
Tags: |
Adicionar Tag
Sem tags, seja o primeiro a adicionar uma tag!
|
id |
rev-ecoaus-article-1193 |
---|---|
record_format |
ojs |
institution |
AUSTRAL |
collection |
OJS |
country |
Argentina |
countrycode |
AR |
component |
Revista |
access |
En linea |
databasecode |
rev-ecoaus |
tag |
revista |
region |
America del Sur |
libraryname |
Asociación Argentina de Ecología |
language |
spa |
format |
Digital |
author |
Kowaljow, Esteban Rostagno, César M. |
spellingShingle |
Kowaljow, Esteban Rostagno, César M. Shrub packs and irrigation to rehabilitate semiarid regions disturbed by the laying of pipelines |
author_facet |
Kowaljow, Esteban Rostagno, César M. |
author_sort |
Kowaljow, Esteban |
title |
Shrub packs and irrigation to rehabilitate semiarid regions disturbed by the laying of pipelines |
title_short |
Shrub packs and irrigation to rehabilitate semiarid regions disturbed by the laying of pipelines |
title_full |
Shrub packs and irrigation to rehabilitate semiarid regions disturbed by the laying of pipelines |
title_fullStr |
Shrub packs and irrigation to rehabilitate semiarid regions disturbed by the laying of pipelines |
title_full_unstemmed |
Shrub packs and irrigation to rehabilitate semiarid regions disturbed by the laying of pipelines |
title_sort |
shrub packs and irrigation to rehabilitate semiarid regions disturbed by the laying of pipelines |
description |
The installation of underground pipelines generally requires the removal of the vegetation cover and has the potential, along with the heavy traffic associated with the installation, to affect the soil quality. In this study we assessed the effect of application of “quilembai” (Chuquiraga avellanedae Lorentz) branches on selected soil properties and vegetation recovery in two sites disturbed by the installation of a pipeline: i) an area where the vegetation and topsoil were removed and affected by heavy machinery traffic (Zone 1), and ii) an area where the vegetation and topsoil were removed and, after the pipeline was installed, they were redistributed over the disturbed area (Zone 2). Branches were applied at two application rates, without or with irrigation. There was also an irrigation treatment and a control. Ten months after the treatments were applied, soil water content, bulk density penetration resistance, infiltration rate, soil organic C and Olsen-P were determined. The density of plants in each plot was determined at the beginning and 10-months post treatment application. The treatment application increased soil water content, although with a varying effect among zones and we did not detect treatment effects on other soil variables. Plant density, mainly that of Nassella tenuis (Phil.) Barkworth, increased in all the treatments with branches of the zone 1, with positive effects of application rates as well as irrigation, while zone 2 did not reveal effects of treatments. Although in 10-months post-application the quilembai branches and irrigation had no significant effects on the soil physical and chemical properties, they increased plant establishment, accelerating the pace of vegetation recovery. |
publisher |
Asociación Argentina de Ecología |
publishDate |
2013 |
url |
https://ojs.ecologiaaustral.com.ar/index.php/Ecologia_Austral/article/view/1193 |
work_keys_str_mv |
AT kowaljowesteban shrubpacksandirrigationtorehabilitatesemiaridregionsdisturbedbythelayingofpipelines AT rostagnocesarm shrubpacksandirrigationtorehabilitatesemiaridregionsdisturbedbythelayingofpipelines AT kowaljowesteban enramadoyriegocomoalternativasderehabilitacionderegionessemiaridasafectadasporeltendidodeductos AT rostagnocesarm enramadoyriegocomoalternativasderehabilitacionderegionessemiaridasafectadasporeltendidodeductos |
_version_ |
1787234025427959808 |
spelling |
rev-ecoaus-article-11932023-11-02T19:01:17Z Shrub packs and irrigation to rehabilitate semiarid regions disturbed by the laying of pipelines Enramado y riego como alternativas de rehabilitación de regiones semiáridas afectadas por el tendido de ductos Kowaljow, Esteban Rostagno, César M. compaction vegetation establishment gas pipeline brushpacks Patagonia soil properties compactación establecimiento de la vegetación gasoducto paquetes de ramas Patagonia propiedades del suelo The installation of underground pipelines generally requires the removal of the vegetation cover and has the potential, along with the heavy traffic associated with the installation, to affect the soil quality. In this study we assessed the effect of application of “quilembai” (Chuquiraga avellanedae Lorentz) branches on selected soil properties and vegetation recovery in two sites disturbed by the installation of a pipeline: i) an area where the vegetation and topsoil were removed and affected by heavy machinery traffic (Zone 1), and ii) an area where the vegetation and topsoil were removed and, after the pipeline was installed, they were redistributed over the disturbed area (Zone 2). Branches were applied at two application rates, without or with irrigation. There was also an irrigation treatment and a control. Ten months after the treatments were applied, soil water content, bulk density penetration resistance, infiltration rate, soil organic C and Olsen-P were determined. The density of plants in each plot was determined at the beginning and 10-months post treatment application. The treatment application increased soil water content, although with a varying effect among zones and we did not detect treatment effects on other soil variables. Plant density, mainly that of Nassella tenuis (Phil.) Barkworth, increased in all the treatments with branches of the zone 1, with positive effects of application rates as well as irrigation, while zone 2 did not reveal effects of treatments. Although in 10-months post-application the quilembai branches and irrigation had no significant effects on the soil physical and chemical properties, they increased plant establishment, accelerating the pace of vegetation recovery. La instalación subterránea de cañerías requiere de la remoción de la vegetación y la compactación del suelo debido al tránsito de maquinaria pesada. Evaluamos el efecto de la aplicación de ramas de “quilembai” (Chuquiraga avellanedae Lorentz) sobre algunas propiedades físicas y químicas del suelo y sobre el establecimiento de la vegetación, simulando la construcción de “islas de fertilidad”, características del monte Patagónico. Seleccionamos dos sitios que sufrieron diferentes disturbios en un área afectada por la instalación de un gasoducto: i) desmonte, decapitación del suelo superficial y circulación de maquinaria pesada (Zona 1), y ii) desmonte, movimiento y deposición del suelo y la vegetación removida (Zona 2). En cada sitio se aplicaron tratamientos de agregado de ramas en dos dosis distintas que a su vez recibieron, o no, riego. También implementamos un tratamiento control y otro que solo recibió riego. Diez meses después de la aplicación se determinó humedad del suelo, densidad aparente, resistencia a la penetración, velocidad de infiltración, C orgánico y P-Olsen y se cuantificó la densidad de plantas, antes de la aplicación y a los 10 meses. Los tratamientos aumentaron la humedad del suelo respecto al control, aunque sólo en algunos casos lo hicieron en forma significativa; no se observaron tendencias claras en el resto de las variables edáficas. La densidad de gramíneas, principalmente Nassella tenuis (Phil.) Barkworth, aumentó en los tratamientos con ramas de la Zona 1, y se observaron efectos positivos tanto de la dosis como del riego. No se detectó un efecto significativo de los tratamientos en la densidad de gramíneas en la Zona 2. En el corto plazo, la aplicación de ramas y riego en sitios muy disturbados no modificó significativamente las características físicas y químicas del suelo, no obstante se observó un aumento notable en el establecimiento de gramíneas, acelerando la recuperación de la cobertura vegetal. Asociación Argentina de Ecología 2013-04-01 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Communications Comunicaciones application/pdf https://ojs.ecologiaaustral.com.ar/index.php/Ecologia_Austral/article/view/1193 10.25260/EA.13.23.1.0.1193 Ecología Austral; Vol. 23 No. 1 (2013): April 2013, Pages 1-76; 62-69 Ecología Austral; Vol. 23 Núm. 1 (2013): April 2013, Pages 1-76; 62-69 1667-782X 0327-5477 spa https://ojs.ecologiaaustral.com.ar/index.php/Ecologia_Austral/article/view/1193/584 Derechos de autor 2020 Esteban Kowaljow, César M. Rostagno https://creativecommons.org/licenses/by/3.0/ |