Interdecadal-Scale Variability: An Assessment of LTER Climate Data
Interdecadal-scale climate variability must be considered when interpreting climatic trends at local, regional, or global scales. Significant amounts of variance are found at interdecadal timescales in many climate parameters of both “direct” data (e.g., precipitation and sea surface temperatures at...
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croxfordunivpr:10.1093/oso/9780195150599.003.0023 2023-05-15T17:35:43+02:00 Interdecadal-Scale Variability: An Assessment of LTER Climate Data McHugh, Maurice J. Goodin, Douglas G. 2003 http://dx.doi.org/10.1093/oso/9780195150599.003.0023 unknown Oxford University Press Climate Variability and Ecosystem Response in Long-Term Ecological Research Sites book-chapter 2003 croxfordunivpr https://doi.org/10.1093/oso/9780195150599.003.0023 2022-08-05T10:30:11Z Interdecadal-scale climate variability must be considered when interpreting climatic trends at local, regional, or global scales. Significant amounts of variance are found at interdecadal timescales in many climate parameters of both “direct” data (e.g., precipitation and sea surface temperatures at specific locations) and “indirect” data through which the climate system operates (e.g., circulation indices such as the Pacific North American index [PNA] or the North Atlantic Oscillation index [NAO]). The aim of this study is to evaluate LTER climate data for evidence of interdecadal-scale variability, which may in turn be associated with interdecadal-scale fluctuations evident in ecological or biophysical data measured throughout the LTER site network. In their conceptualization of climatic variability, Marcus and Brazel (1984) describe four types of interannual climate variations: (1) Periodic variations around a stationary mean are well known to occur at short timescales, such as diurnal temperature changes or the annual cycle, but are difficult to resolve at decadal or longer timescales. (2) Discontinuities generated by sudden changes in the overall state of the climate system can reveal nonstationarity in the mean about which data vary in a periodic or quasi-periodic manner. These sudden alterations can result in periods perhaps characterized by prolonged drought or colder than normal temperatures. (3) The climate system may undergo trends such as periods of slowly increasing or decreasing precipitation or of warming or cooling until some new mean “steady” state is reached. (4) Climate data may exhibit increasing or decreasing variability about a specific mean value or steady state. Interdecadal contributions to climate variability can be described in terms of types 2 and 3 of Marcus and Brazel’s conceptual classification—discontinuities in the mean and trends in the data. Records of the Northern Hemisphere’s average land surface temperature show discontinuities in the mean state of the hemispheric ... Book Part North Atlantic North Atlantic oscillation Oxford University Press (via Crossref) Pacific |
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Oxford University Press (via Crossref) |
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description |
Interdecadal-scale climate variability must be considered when interpreting climatic trends at local, regional, or global scales. Significant amounts of variance are found at interdecadal timescales in many climate parameters of both “direct” data (e.g., precipitation and sea surface temperatures at specific locations) and “indirect” data through which the climate system operates (e.g., circulation indices such as the Pacific North American index [PNA] or the North Atlantic Oscillation index [NAO]). The aim of this study is to evaluate LTER climate data for evidence of interdecadal-scale variability, which may in turn be associated with interdecadal-scale fluctuations evident in ecological or biophysical data measured throughout the LTER site network. In their conceptualization of climatic variability, Marcus and Brazel (1984) describe four types of interannual climate variations: (1) Periodic variations around a stationary mean are well known to occur at short timescales, such as diurnal temperature changes or the annual cycle, but are difficult to resolve at decadal or longer timescales. (2) Discontinuities generated by sudden changes in the overall state of the climate system can reveal nonstationarity in the mean about which data vary in a periodic or quasi-periodic manner. These sudden alterations can result in periods perhaps characterized by prolonged drought or colder than normal temperatures. (3) The climate system may undergo trends such as periods of slowly increasing or decreasing precipitation or of warming or cooling until some new mean “steady” state is reached. (4) Climate data may exhibit increasing or decreasing variability about a specific mean value or steady state. Interdecadal contributions to climate variability can be described in terms of types 2 and 3 of Marcus and Brazel’s conceptual classification—discontinuities in the mean and trends in the data. Records of the Northern Hemisphere’s average land surface temperature show discontinuities in the mean state of the hemispheric ... |
format |
Book Part |
author |
McHugh, Maurice J. Goodin, Douglas G. |
spellingShingle |
McHugh, Maurice J. Goodin, Douglas G. Interdecadal-Scale Variability: An Assessment of LTER Climate Data |
author_facet |
McHugh, Maurice J. Goodin, Douglas G. |
author_sort |
McHugh, Maurice J. |
title |
Interdecadal-Scale Variability: An Assessment of LTER Climate Data |
title_short |
Interdecadal-Scale Variability: An Assessment of LTER Climate Data |
title_full |
Interdecadal-Scale Variability: An Assessment of LTER Climate Data |
title_fullStr |
Interdecadal-Scale Variability: An Assessment of LTER Climate Data |
title_full_unstemmed |
Interdecadal-Scale Variability: An Assessment of LTER Climate Data |
title_sort |
interdecadal-scale variability: an assessment of lter climate data |
publisher |
Oxford University Press |
publishDate |
2003 |
url |
http://dx.doi.org/10.1093/oso/9780195150599.003.0023 |
geographic |
Pacific |
geographic_facet |
Pacific |
genre |
North Atlantic North Atlantic oscillation |
genre_facet |
North Atlantic North Atlantic oscillation |
op_source |
Climate Variability and Ecosystem Response in Long-Term Ecological Research Sites |
op_doi |
https://doi.org/10.1093/oso/9780195150599.003.0023 |
_version_ |
1766134968997642240 |