The seasonal pattern of CO2 exchange of Festuca rubra L. in a montane meadow community in Northern Germany

Ruetz, W. F.

doi:10.1007/bf00360515

Cited by 13 publications

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“…Similarly. Ruetz (1973) concluded that the seasonal photosynthetic response of Festuca rubra in northern Germany was controlled by changes in the ambient light regime. The seasonal light response patterns discussed above suggest that the photosynthetic capabilities of J. roemerianus may be more strongly influenced by ambient radiation than by temperature during some periods.…”

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Seasonal Patterns of Co 2 and Water Vapor Exchange of Juncus roemerianus Scheele in a Georgia Salt Marsh

Giurgevich

Dunn

1978

American Journal of Botany

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CO. and water vapor exchange studies of intact plants of black needle rush Uuncus roemerianus Scheele) were conducted in an undisturbed marsh community on Sapelo Island. Georgia. The seasonal patterns of the light and temperature responses of net photosynthesis, transpiration, leaf diffusive conductance. water-use efficiency and respiration were determined five times over the year. Internal resistances to CO. uptake were also evaluated. Net photosynthesis was highest in early spring. but declined only slightly through the year. A distinct and moderate temperature optimum of net photosynthesis was observed with decreasing rates above 30 C. Leaf conductances to water vapor were similar at all seasons and were high at cooler temperatures and decreased with increasing temperature. Transpiration was relatively high and constant during all seasons. The water-use efficiency of photosynthesis was high below 25 C, but decreased sharply above that temperature. Dark respiration was relatively low. Seasonal changes reflected changes in leaf density. Decreasing stomatal conductances and increasing respiration rates reduced net photosynthesis at higher temperatures. The stomatal resistance increased and internal resistances to CO. uptake decreased over the year. but the total resistance remained constant. The internal resistance to CO. uptake was consistently higher than the stomatal resistance. These seasonal response patterns show that J. roemerianus is well adapted to the seasonal changes in ambient temperature and irradiance and other microenvironmental factors in the high marsh. These physiological characteristics permit this C 3 species to maintain a high productivity in a seasonally hot and stressful environment.

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Seasonal Patterns of Co 2 and Water Vapor Exchange of Juncus roemerianus Scheele in a Georgia Salt Marsh

Giurgevich

Dunn

1978

American Journal of Botany

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SEASONAL PATTERNS OF CO₂ AND WATER VAPOR EXCHANGE OF JUNCUS ROEMERIANUS SCHEELE IN A GEORGIA SALT MARSH

Giurgevich

Dunn

1978

American J of Botany

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CO2 and water vapor exchange studies of intact plants of black needle rush (Juncus roemerianus Scheele) were conducted in an undisturbed marsh community on Sapelo Island, Georgia. The seasonal patterns of the light and temperature responses of net photosynthesis, transpiration, leaf diffusive conductance, water‐use efficiency and respiration were determined five times over the year. Internal resistances to CO2 uptake were also evaluated. Net photosynthesis was highest in early spring, but declined only slightly through the year. A distinct and moderate temperature optimum of net photosynthesis was observed with decreasing rates above 30 C. Leaf conductances to water vapor were similar at all seasons and were high at cooler temperatures and decreased with increasing temperature. Transpiration was relatively high and constant during all seasons. The water‐use efficiency of photosynthesis was high below 25 C, but decreased sharply above that temperature. Dark respiration was relatively low. Seasonal changes reflected changes in leaf density. Decreasing stomatal conductances and increasing respiration rates reduced net photosynthesis at higher temperatures. The stomatal resistance increased and internal resistances to CO2 uptake decreased over the year, but the total resistance remained constant. The internal resistance to CO2 uptake was consistently higher than the stomatal resistance. These seasonal response patterns show that J. roemerianus is well adapted to the seasonal changes in ambient temperature and irradiance and other microenvironmental factors in the high marsh. These physiological characteristics permit this C3 species to maintain a high productivity in a seasonally hot and stressful environment.

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Responses of the Vegetation

Lauenroth¹,

Milchunas²,

Dodd³

1984

The Effects of SO2 on a Grassland

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The seasonal pattern of CO2 exchange of Festuca rubra L. in a montane meadow community in Northern Germany

Cited by 13 publications

References 20 publications

Seasonal Patterns of Co 2 and Water Vapor Exchange of Juncus roemerianus Scheele in a Georgia Salt Marsh

Seasonal Patterns of Co 2 and Water Vapor Exchange of Juncus roemerianus Scheele in a Georgia Salt Marsh

SEASONAL PATTERNS OF CO₂ AND WATER VAPOR EXCHANGE OF JUNCUS ROEMERIANUS SCHEELE IN A GEORGIA SALT MARSH

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The seasonal pattern of CO2 exchange of Festuca rubra L. in a montane meadow community in Northern Germany

Cited by 13 publications

References 20 publications

Seasonal Patterns of Co 2 and Water Vapor Exchange of Juncus roemerianus Scheele in a Georgia Salt Marsh

Seasonal Patterns of Co 2 and Water Vapor Exchange of Juncus roemerianus Scheele in a Georgia Salt Marsh

SEASONAL PATTERNS OF CO2 AND WATER VAPOR EXCHANGE OF JUNCUS ROEMERIANUS SCHEELE IN A GEORGIA SALT MARSH

Responses of the Vegetation

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SEASONAL PATTERNS OF CO₂ AND WATER VAPOR EXCHANGE OF JUNCUS ROEMERIANUS SCHEELE IN A GEORGIA SALT MARSH