A MARITIME RESPONSE TO THE CRISIS IN AREA STUDIES     

MARTIN W. LEWIS  KREN WIGEN 《Geographical review》1999,89(2):161-168

ABSTRACT. The area-studies model of global scholarship, based on dividing the world into a set number of large, quasi-continental regions, is under assault from a variety of intellectual and institutional forces. New, less rigid models of global scholarship are increasingly being called for by both scholars and funding agencies. One useful alternative, currently being explored at Duke University, reframes area studies around ocean and sea basins. Putting maritime interactions at the center of vision brings to light a set of historical regions that have largely remained invisible on the conventional map of the world.  相似文献   

Mountain-wave-induced record low stratospheric temperatures above northern Scandinavia   总被引：1，自引：0，他引：1  

ANDREAS DÖRNBRACK  MARTIN LEUTBECHER  RIGEL KIVI  ESKO. KYRÖ 《地球，A辑:动力气象学与海洋学》1999,51(5):951-963

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Bank erosion in an Andean páramo river system: Implications for hydro-development and carbon dynamics in the neotropical Andes     

Derek J.MARTIN  Christopher ELY  Beverley C.WEMPLE 《山地科学学报》2019,(2)

The páramo of the Northern Andes provide critically important ecosystem services to the Northern Andean region in the form of water provisioning and carbon sequestration, both of which are a result of the páramo?s organic-rich soils. Little is known, however, about the hydro-geomorphic characteristics of the rivers that drain these ecosystems. With impending plans for widespread hydro-development and increasing implementation of carbon-sequestering compensation for ecosystem services programs in the region it is imperative that we develop a thorough understanding of the hydrogeomorphic role that rivers play in this unique ecosystem. The objective of this study was to quantify bank erosion along an Amazonian headwater stream draining a small, relatively undisturbed páramo catchment to gain a better understanding of the natural erosion regime and the resulting sediment contributions from this unique ecosystem. This study implemented a combination of field, laboratory, and Geographic Information Systems techniques to quantify bank erosion rates and determine a bank erosion sediment yield from the Ningar River, a small páramo catchment(22.7 km~2) located in the eastern Andean cordillera of Ecuador. Results show that bank erosion rates range from 3.0 to ≥ 390.0 mm/yr, are highly episodic, and yield at least 487 tons of sediment annually to the Ningar River. These results imply that 1) páramo ecosystems substantially contribute to the sediment load of the Amazon River basin; 2) bank erosion is a potentially significant flux component of basin-scale carbon cycles in páramo ecosystems; and 3) hydrologic alteration campaigns(dam building) will likely critically alter these contributions and concomitantly disconnect a critical source of sediment and nutrients to downstream ecosystems.  相似文献   

Holocene deglaciation and recent ice-marginal processes in west Greenland,F. G. M. VAN TATENHOVE,PhD Thesis,Universiteit van Amsterdam 1995; (202 pp) ISBN 90-6787-039-0     

MARTIN KIRKBRIDE 《第四纪科学杂志》1997,12(1):81-82

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AN INTEGRATED APPROACH TO MODELLING HYDROLOGY AND WATER QUALITY IN GLACIERIZED CATCHMENTS     

KEITH RICHARDS  MARTIN SHARP  NEIL ARNOLD  ANGELA GURNELL  MICHAEL CLARK  MARTIN TRANTER  PETER NIENOW  GILES BROWN  IAN WILLIS  WENDY LAWSON 《水文研究》1996,10(4):479-508

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