Foreseeable global warming will differentially affect Chara vulgaris populations from different altitudes

• A common garden experiment was performed on charophytes. • Four Chara vulgaris populations from different altitudes grew differently under 20–24°C. • Low-altitude C. vulgaris populations produced more biomass than those from high altitude at 24°C. • A more expansive architecture occurred in low-al...
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Autor*in:	Rojo, Carmen [verfasserIn] Martínez-Ruiz, Carlos Carramiñana, María Rodrigo, María A.

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2015

Schlagwörter:	Common garden Climate change Respiration rate Local adaptation Phenotypic plasticity Morphological architecture Acclimatization

Umfang:	7

Übergeordnetes Werk:	Enthalten in: The supplementation of spatial information improves coordination - Armstrong, Alan ELSEVIER, 2013, an international scientific journal dealing with applied and fundamental research on submerged, floating and emergent plants in marine and freshwater ecosystems, Amsterdam [u.a.]
Übergeordnetes Werk:	volume:122 ; year:2015 ; pages:20-26 ; extent:7

Links:	Volltext

DOI / URN:	10.1016/j.aquabot.2014.12.002

Katalog-ID:	ELV039740986

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title_auth	Foreseeable global warming will differentially affect Chara vulgaris populations from different altitudes
abstract	• A common garden experiment was performed on charophytes. • Four Chara vulgaris populations from different altitudes grew differently under 20–24°C. • Low-altitude C. vulgaris populations produced more biomass than those from high altitude at 24°C. • A more expansive architecture occurred in low-altitude populations when T increased. • A substitution of charophyte ecotypes is foreseen given climatic change.
abstractGer	• A common garden experiment was performed on charophytes. • Four Chara vulgaris populations from different altitudes grew differently under 20–24°C. • Low-altitude C. vulgaris populations produced more biomass than those from high altitude at 24°C. • A more expansive architecture occurred in low-altitude populations when T increased. • A substitution of charophyte ecotypes is foreseen given climatic change.
abstract_unstemmed	• A common garden experiment was performed on charophytes. • Four Chara vulgaris populations from different altitudes grew differently under 20–24°C. • Low-altitude C. vulgaris populations produced more biomass than those from high altitude at 24°C. • A more expansive architecture occurred in low-altitude populations when T increased. • A substitution of charophyte ecotypes is foreseen given climatic change.
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Foreseeable global warming will differentially affect Chara vulgaris populations from different altitudes

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