Estado del conocimiento y principales amenazas de los humedales boscosos de agua dulce de Chile

Correa‐Araneda, Francisco; Urrutia, Jonathan; Figueroa, Ricardo

doi:10.4067/s0716-078x2011000300002

Cited by 30 publications

(26 citation statements)

References 10 publications

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“…Myrceugenia exsucca and Luma chequen are two evergreen species from the Myrtaceae family with fulfill important ecological functions (Correa-Araneda et al 2011, Solervicens & Elgueta 1994, Villagrán & Hinojoza 1997. Considering the destruction of their natural habitat and the possibility of their conservation under lower moisture soils conditions is important to accurate the drought tolerance and the capability of recovery after a drought episode.…”

Section: Discussionmentioning

confidence: 99%

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Ecophysiological responses to drought followed by re-watering of two native Chilean swamp forest plants: Myrceugenia exsucca (DC.) O. Berg and Luma chequen (Molina) A. Gray

Bascuñán‐Godoy¹,

Alcaíno²,

Carvajal

et al. 2015

Gayana Bot.

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Myrceugenia exsucca (DC.) O. Berg and Luma chequen (Molina) A. Gray are two predominant species of Myrtaceae from the swamp forest which are strongly threatened by destruction of their habitat. Conservation programs include the creation of new protected areas which often have different environmental conditions respect their natural habitat. The drought tolerance and the capability to restore their physiological performance after stress relief are characteristic of great importance for the successful conservation programs on these kinds of plants. Understanding how these plants respond to episodic drought and watering pulse was the principal aim of this work. In this sense, water relations, soluble sugars, pigments and photosystem II (PSII) performance were studied. In general the water relationships were less affected by drought in L. chequen than in M. exsucca which was consistent with a higher maintenance of photochemical quenching (qP) in the first one. In addition, L. chequen exhibited complete recovery of water potential and maximum PSII efficiency and increasing the proportion of photochemical processes and soluble sugars related with a higher photosynthetic recovery. Contrastingly, M. exsucca was unable to recover its water potential and the proportion of open reaction centers of PSII under re-watering indicating a lower capacity of recovery. These results shown different capabilities to cope and reestablish physiological performance after water scarcity episode between these two native chilean swamp forest plants. We hope that these results will be important for conservation and re-vegetation managements programs. KEYWORDS:Myrtaceae, photosynthetic performance, water deficit, re-watering. RESUMENMyrceugenia exsucca (DC.) O. Berg y Luma chequen (Molina) A. Gray son dos especies predominantes de Myrtaceae del bosque pantanoso que están fuertemente amenazadas por la destrucción de su hábitat. Los programas de conservación incluyen la creación de nuevas áreas protegidas que a menudo tienen diferentes condiciones ambientales respecto a su hábitat natural. La tolerancia a la sequía y la capacidad de recuperación son características de gran importancia en los programas de conservación en este tipo de plantas. Entender cómo estas plantas responden a la sequía y la rehidratación fue el objetivo principal de este trabajo. Por ende, se estudiaron las relaciones hídricas, azúcares solubles, pigmentos y rendimiento del fotosistema II (PSII). En general, el estado hídrico de L. chequen fue menos afectado que el de M. exsucca. Esto fue consistente con el mayor mantenimiento del apagamiento fotoquímico en L. chequen respecto a M. exsucca. Además, L. chequen exhibió una recuperación completa del potencial hídrico y de la máxima eficiencia PSII incrementando estadísticamente el apagamiento fotoquímico (qP), que podría relacionarse con el fuerte incremento en los azúcares solubles, indicando una mayor recuperación fotosintética. En contraste, M. exsucca fue incapaz de recuperar su potencial hídrico y la proporción ...

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Section: Discussionmentioning

confidence: 99%

“…These isolated, discontinuous forests fulfill important ecological functions related to watercourse protection, biological diversity conservation, and erosion and flood control (Correa-Araneda et al 2011, Solervicens & Elgueta 1994. Myrceugenia exsucca (DC.)…”

Section: Introductionmentioning

confidence: 99%

Ecophysiological responses to drought followed by re-watering of two native Chilean swamp forest plants: Myrceugenia exsucca (DC.) O. Berg and Luma chequen (Molina) A. Gray

Bascuñán‐Godoy¹,

Alcaíno²,

Carvajal

et al. 2015

Gayana Bot.

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“…These features make forested wetlands particularly vulnerable against the excessive input of organic matter as a result of the diverse productive activities carried out in the area. In addition, the loss of forest material as a result of its extraction for human consumption (Correa-Araneda et al 2011) can facilitate the input of light, generating changes in the thermal regime and in the related variables (Döll & Zhang 2010). The synergistic effect of these modifi cations might lead to a greater bacterial colonization (Molinero et al 1996), accelerating biological processes (Cortes 1992, Belovsky & Slade 2000 and in turn, causing a greater consumption of oxygen.…”

Section: Discussionmentioning

confidence: 99%

“…That is why any change in the type of vegetation that is incorporated into the water component of the forested wetlands would impact signifi cantly on the functioning of the system, affecting the capacity of processing this material (Graça & Canhoto 2006). However, the mechanisms are not entirely clear, since wetlands have been very poorly studied (Correa-Araneda et al 2011). Because of the abovementioned backgrounds, the present study is aimed to evaluate the degradation process of the leaf litter carried out by the communities of BF and BMI on the foliar component of native and non-native plants from the forested wetlands.…”

Section: Introductionmentioning

confidence: 99%

“…Arboreal vegetation of these ecosystems is fundamental for their Original Article functioning, because it causes a low penetration of light, limiting the primary activity of phytoplankton (Benfi eld 1996) and it implies that their main source of organic matter is the material coming from the woody component (e.g. leaves, twigs, fl owers and fruits) (Correa-Araneda et al 2011). This material has been mainly supplied by hydrophilic native species from the Myrtaceae family, such as Blepharocalyx cruckshanksii (Hook.…”

Section: Introductionmentioning

confidence: 99%

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Leaf litter decomposition from native and non-native species in a freshwater forested wetland of Chile

Gómez-Capponi

Correa‐Araneda²,

Díaz³

et al. 2017

Gayana (Concepc.)

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Decomposition of leaf litter is a fundamental process for the functioning of forested wetlands. The rapid increment of forest plantations has involved a greater contribution of leaf litter of exotic origin to these ecosystems. The decomposition rate between leaf litter of native and exotic origin in a forested wetland of the Mediterranean zone of Chile was compared, as well as the contribution of bacteria and macroinvertebrate to this process. It was determined that the decomposition rate of the leaf litter presented signifi cant differences (p < 0.05) between species, being faster in those of non-native origin. This could be due to differences in ecophysiological aspects of the leaves like the presence of chemical compounds such as waxes or oils. Both analyzed communities were relevant in the studied process. However, bacteria contributed mostly to the decomposition of both types of leaves. The implications of the physical and chemical characteristics of the leaves and the water on the processing of the foliar material are discussed. KEYWORDS:Allochthonous detritus, bacteria, lentic ecosystem, macroinvertebrates. RESUMENEn los humedales boscosos, la descomposición de la hojarasca es un proceso fundamental para su funcionamiento. El rápido incremento de las plantaciones forestales ha implicado un mayor aporte de hojarasca de origen exótico a estos ecosistemas. Se comparó la tasa de descomposición entre hojarasca de origen nativo y exótico en un humedal boscoso de la zona Mediterránea de Chile, así como la contribución de las bacterias y macroinvertebrados a este proceso. Se determinó que la tasa de descomposición de la hojarasca presentó diferencias signifi cativas entre las diferentes especies (p < 0,05), siendo más rápido en especies de origen exótico. Esto podría ser dado por diferencias en algunos aspectos ecofi siológicos de las hojas como la presencia de compuestos químicos tales como ceras o aceites. Ambas comunidades analizadas fueron relevantes en el proceso estudiado. Sin embargo, las bacterias contribuyeron mayormente a la descomposición de ambos tipos de hojas. Se discuten las implicaciones de las características físicas y químicas de las hojas y el agua en el procesamiento del material foliar.

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Wetlands of Chile: Biodiversity, Endemism, and Conservation Challenges

Figueroa¹,

Contreras²,

Saavedra³

2018

The Wetland Book

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Estado del conocimiento y principales amenazas de los humedales boscosos de agua dulce de Chile

Cited by 30 publications

References 10 publications

Ecophysiological responses to drought followed by re-watering of two native Chilean swamp forest plants: Myrceugenia exsucca (DC.) O. Berg and Luma chequen (Molina) A. Gray

Ecophysiological responses to drought followed by re-watering of two native Chilean swamp forest plants: Myrceugenia exsucca (DC.) O. Berg and Luma chequen (Molina) A. Gray

Leaf litter decomposition from native and non-native species in a freshwater forested wetland of Chile

Wetlands of Chile: Biodiversity, Endemism, and Conservation Challenges

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