Raimond Below scite author profile

Carbon dioxide (CO2) has been increasing in atmospheric concentration since the Industrial Revolution. A decreasing number of stomata on leaves of land plants still provides the only morphological evidence that this man-made increase has already affected the biosphere. The current rate of CO2 responsiveness in individual long-lived species cannot be accurately determined from field studies or by controlledenvironment experiments. However, the required long-term data sets can be obtained from continuous records of buried leaves from living trees in wetland ecosystems. Fine-resolution analysis of the lifetime leaf record of an individual birch (Betula pendula) indicates a gradual reduction of stomatal frequency as a phenotypic acclimation to CO2 increase. During the past four decades, CO2 increments of 1 part per million by volume resulted in a stomatal density decline of -0.6%. It may be hypothesized that this plastic stomatal frequency response of deciduous tree species has evolved in conjunction with the overall Cenozoic reduction of atmospheric CO2 concentrations.

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Dinoflagellate biostratigraphy of the Toarcian to Lower Oxfordian (Jurassic) of the Barents Sea region

Smelror¹,

Below²

1993

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Aptian to Cenomanian Dinoflagellate Cysts from the Mazagan Plateau, Northwest Africa (Sites 545 and 547, Deep Sea Drilling Project Leg 79)

Below¹

1984

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Eighty-eight samples of Aptian to lower Cenomanian sediments of Sites 545 and 547, DSDP Leg 79, from the Mazagan Plateau area (offshore Northwest Africa) were analyzed for palynomorphs. The very rich dinoflagellate cyst assemblages make it possible to narrow shipboard age determinations and to correlate Sites 545 and 547. The distribution of 174 dinoflagellate cyst taxa is tabulated in this study and the biostratigraphic value of selected dinoflagellate cysts is discussed. Additional taxonomic remarks are made about some species. The new dinoflagellate cyst species Aptea almohadensis, Occisucysta hinzü, O. mazaganensis, and the subspecies Maghrebinia perforata (Clarke and Verdier, 1967) Below, 1981 ssp. mirabilis are described.

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Cambrian Radiolaria from the Georgina Basin, Queensland, Australia

Won¹,

Below²

1999

Micropaleontology

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Dinoflagellaten-Zysten aus den Platylenticeras-Schichten (unteres Mittel-Valendis) der Ziegeleitongrube Schnepper in Suddendorf/Nordwest-Deutschland

Below¹

1981

nos

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Rigaudella, a new Dinoflagellate-Cyst genus

Below¹

1982

njgpm

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Aptian to Cenomanian dinoflagellate cysts from the Mazagan Plateau

Below¹

1984

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(Figure 1) Distribution of dinoflagellate cysts in the mid-Cretaceous of DSDP Hole 79-545

Below¹

1984

448

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Raimond Below

A natural experiment on plant acclimation: lifetime stomatal frequency response of an individual tree to annual atmospheric CO2 increase.

Dinoflagellate biostratigraphy of the Toarcian to Lower Oxfordian (Jurassic) of the Barents Sea region

Aptian to Cenomanian Dinoflagellate Cysts from the Mazagan Plateau, Northwest Africa (Sites 545 and 547, Deep Sea Drilling Project Leg 79)

Cambrian Radiolaria from the Georgina Basin, Queensland, Australia

Dinoflagellaten-Zysten aus den Platylenticeras-Schichten (unteres Mittel-Valendis) der Ziegeleitongrube Schnepper in Suddendorf/Nordwest-Deutschland

Rigaudella, a new Dinoflagellate-Cyst genus

Aptian to Cenomanian dinoflagellate cysts from the Mazagan Plateau

(Figure 1) Distribution of dinoflagellate cysts in the mid-Cretaceous of DSDP Hole 79-545

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