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On the structure and origin of major glaciation cycles 2. The 100,000‐year cycle

Imbrie, J. ; Berger, A. ; Boyle, E. A. ; [et al.]

American Geophysical Union (AGU) ; 1993

In: Paleoceanography Vol. 8, No. 6 ( 1993-12), p. 699-735

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In: Paleoceanography, American Geophysical Union (AGU), Vol. 8, No. 6 ( 1993-12), p. 699-735

Abstract: Climate over the past million years has been dominated by glaciation cycles with periods near 23,000, 41,000, and 100,000 years. In a linear version of the Milankovitch theory, the two shorter cycles can be explained as responses to insolation cycles driven by precession and obliquity. But the 100,000‐year radiation cycle (arising from eccentricity variation) is much too small in amplitude and too late in phase to produce the corresponding climate cycle by direct forcing. We present phase observations showing that the geographic progression of local responses over the 100,000‐year cycle is similar to the progression in the other two cycles, implying that a similar set of internal climatic mechanisms operates in all three. But the phase sequence in the 100,000‐year cycle requires a source of climatic inertia having a time constant (∼15,000 years) much larger than the other cycles (∼5,000 years). Our conceptual model identifies massive northern hemisphere ice sheets as this larger inertial source. When these ice sheets, forced by precession and obliquity, exceed a critical size, they cease responding as linear Milankovitch slaves and drive atmospheric and oceanic responses that mimic the externally forced responses. In our model, the coupled system acts as a nonlinear amplifier that is particularly sensitive to eccentricity‐driven modulations in the 23,000‐year sea level cycle. During an interval when sea level is forced upward from a major low stand by a Milankovitch response acting either alone or in combination with an internally driven, higher‐frequency process, ice sheets grounded on continental shelves become unstable, mass wasting accelerates, and the resulting deglaciation sets the phase of one wave in the train of 100,000‐year oscillations. Whether a glacier or ice sheet influences the climate depends very much on the scale…. The interesting aspect is that an effect on the local climate can still make an ice mass grow larger and larger, thereby gradually increasing its radius of influence. Johannes Oerlemans [1991, p. 155]

Type of Medium: Online Resource

ISSN: 0883-8305 , 1944-9186

URL: Article

DOI: 10.1029/93PA02751

Language: English

Publisher: American Geophysical Union (AGU)

Publication Date: 1993

detail.hit.zdb_id: 637876-6

detail.hit.zdb_id: 2015231-0

detail.hit.zdb_id: 2916554-4

SSG: 16,13

SSG: 13

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On the Structure and Origin of Major Glaciation Cycles 1. Linear Responses to Milankovitch Forcing

Imbrie, J. ; Boyle, E. A. ; Clemens, S. C. ; [et al.]

American Geophysical Union (AGU) ; 1992

In: Paleoceanography Vol. 7, No. 6 ( 1992-12), p. 701-738

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In: Paleoceanography, American Geophysical Union (AGU), Vol. 7, No. 6 ( 1992-12), p. 701-738

Abstract: Time series of ocean properties provide a measure of global ice volume and monitor key features of the wind‐driven and density‐driven circulations over the past 400,000 years. Cycles with periods near 23,000, 41,000, and 100,000 years dominate this climatic narrative. When the narrative is examined in a geographic array of time series, the phase of each climatic oscillation is seen to progress through the system in essentially the same geographic sequence in all three cycles. We argue that the 23,000‐ and 41,000‐year cycles of glaciation are continuous, linear responses to orbitally driven changes in the Arctic radiation budget; and we use the phase progression in each climatic cycle to identify the main pathways along which the initial, local responses to radiation are propagated by the atmosphere and ocean. Early in this progression, deep waters of the Southern Ocean appear to act as a carbon trap. To stimulate new observations and modeling efforts, we offer a process model that gives a synoptic view of climate at the four end‐member states needed to describe the system's evolution, and we propose a dynamic system model that explains the phase progression along causal pathways by specifying inertial constants in a chain of four subsystems. “Solutions to problems involving systems of such complexity are not born full grown like Athena from the head of Zeus. Rather they evolve slowly, in stages, each of which requires a pause to examine data at great lengths in order to guarantee a sure footing and to properly choose the next step.” —Victor P. Starr

Type of Medium: Online Resource

ISSN: 0883-8305 , 1944-9186

URL: Article

DOI: 10.1029/92PA02253

Language: English

Publisher: American Geophysical Union (AGU)

Publication Date: 1992

detail.hit.zdb_id: 637876-6

detail.hit.zdb_id: 2015231-0

detail.hit.zdb_id: 2916554-4

SSG: 16,13

SSG: 13

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Response of deep ocean circulation to initiation of northern hemisphere glaciation (3–2 MA)

Raymo, M. E. ; Hodell, D. ; Jansen, E.

American Geophysical Union (AGU) ; 1992

In: Paleoceanography Vol. 7, No. 5 ( 1992-10), p. 645-672

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In: Paleoceanography, American Geophysical Union (AGU), Vol. 7, No. 5 ( 1992-10), p. 645-672

Abstract: Carbon isotopic records from benthic foraminifera are used to map patterns of deep ocean circulation between 3 and 2 million years ago, the interval when significant northern hemisphere glaciation began. The δ 18 O and δ 13 C data from four Atlantic sites (552, 607, 610, and 704) and one Pacific site (677) show that global cooling over this interval was associated with increased suppression of North Atlantic Deep Water (NADW) formation. However, the relative strength of NADW production was always greater than is observed during late Pleistocene glaciations when extreme decreases in NADW are observed in the deep North Atlantic. Our data indicate that an increase in the equator‐to‐pole temperature gradient associated with the onset of northern hemisphere glaciation did not intensify deepwater production in the North Atlantic but rather the opposite occurred. This is not unexpected as it is the “warm high‐salinity” characteristic, rather than the “low temperature,” of thermocline waters that is critical to the deepwater formation process in this region today.

Type of Medium: Online Resource

ISSN: 0883-8305 , 1944-9186

URL: Article

DOI: 10.1029/92PA01609

Language: English

Publisher: American Geophysical Union (AGU)

Publication Date: 1992

detail.hit.zdb_id: 637876-6

detail.hit.zdb_id: 2015231-0

detail.hit.zdb_id: 2916554-4

SSG: 16,13

SSG: 13

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Geochemical evidence supporting T. C. Chamberlin's theory of glaciation

Raymo, M. E.

Geological Society of America ; 1991

In: Geology Vol. 19, No. 4 ( 1991), p. 344-

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In: Geology, Geological Society of America, Vol. 19, No. 4 ( 1991), p. 344-

Type of Medium: Online Resource

ISSN: 0091-7613

URL: Article

DOI: 10.1130/0091-7613(1991)019〈0344:GESTCC〉2.3.CO;2

Language: English

Publisher: Geological Society of America

Publication Date: 1991

detail.hit.zdb_id: 184929-3

detail.hit.zdb_id: 2041152-2

SSG: 13

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Climatic effects of reduced Arctic sea ice limits in the Giss II General Circulation Model

Raymo, M. E. ; Rind, D. ; Ruddiman, W. F.

American Geophysical Union (AGU) ; 1990

In: Paleoceanography Vol. 5, No. 3 ( 1990-06), p. 367-382

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In: Paleoceanography, American Geophysical Union (AGU), Vol. 5, No. 3 ( 1990-06), p. 367-382

Abstract: In this paper we present results of an atmospheric general circulation model (GCM) experiment in which Arctic sea ice limits were substantially reduced in all months. March sea ice limits were set equivalent to modern September limits, and all sea ice was removed in September. Sea ice coverage for other months varied between these two extremes. This climate sensitivity experiment makes predictions about mean northern hemisphere atmospheric conditions (including temperature, pressure, wind patterns, and precipitation) consistent with these boundary constraints. The major effects of reduced sea ice limits are observed in winter. They include large regional warming of the circum‐Arctic region, northward migration of the Icelandic low pressure system, and strengthening of the Azores high. Changes in net heating over the North Atlantic Ocean suggest that increases in sea surface temperatures and salinities in this region would also accompany reductions in Arctic sea ice limits. In the wind field, a weakening of the polar easterlies and an intensification of cyclonic circulation over the Norwegian‐Greenland Sea suggest that surface water exchange between the Atlantic and Arctic would increase when sea ice limits are reduced. However, zonally averaged changes in strength of the westerlies or upper level jet stream are minimal. The late Pliocene cooling of the North Atlantic Ocean and North American Arctic margin may have been linked in part to the development of perennial sea ice cover.

Type of Medium: Online Resource

ISSN: 0883-8305 , 1944-9186

URL: Article

DOI: 10.1029/PA005i003p00367

Language: English

Publisher: American Geophysical Union (AGU)

Publication Date: 1990

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detail.hit.zdb_id: 2015231-0

detail.hit.zdb_id: 2916554-4

SSG: 16,13

SSG: 13

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THE INITIATION OF NORTHERN HEMISPHERE GLACIATION

Raymo, M. E.

Annual Reviews ; 1994

In: Annual Review of Earth and Planetary Sciences Vol. 22, No. 1 ( 1994-05), p. 353-383

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In: Annual Review of Earth and Planetary Sciences, Annual Reviews, Vol. 22, No. 1 ( 1994-05), p. 353-383

Type of Medium: Online Resource

ISSN: 0084-6597 , 1545-4495

URL: Issue

URL: Article

DOI: 10.1146/earth.1994.22.issue-1

DOI: 10.1146/annurev.ea.22.050194.002033

Language: English

Publisher: Annual Reviews

Publication Date: 1994

detail.hit.zdb_id: 124813-3

detail.hit.zdb_id: 2010309-8

SSG: 16,13

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The Himalayas, organic carbon burial, and climate in the Miocene

Raymo, M. E.

American Geophysical Union (AGU) ; 1994

In: Paleoceanography Vol. 9, No. 3 ( 1994-06), p. 399-404

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In: Paleoceanography, American Geophysical Union (AGU), Vol. 9, No. 3 ( 1994-06), p. 399-404

Abstract: Cooling ages of rock in the Himalayas imply that rapid exhumation between the Main Central thrust system and the South Tibetan detachment system occurred between 21 and 17 Ma. The generation of relief and enhanced weathering which followed this event may have resulted in a pronounced increase in the delivery of dissolved strontium, carbon, phosphorus, and other chemical weathering products to the ocean (Richter et al., 1992). The increased supply of nutrients stimulated productivity in oceanic upwelling zones and expansion of the oxygen minimum zone leading to enhanced burial and preservation of organic matter in the Monterey formation and other deposits from this interval. A downdraw of atmospheric CO 2 associated with enhanced chemical weathering rates and organic matter burial may have led to global cooling and the expansion of the Antarctic ice sheet by 15 Ma. The above scenario differs from the “Monterey hypothesis” of Vincent and Berger in that CO 2 downdraw is primarily via silicate weathering rather than organic carbon burial and that organic carbon burial is driven by increased delivery of nutrients to the ocean rather than by stronger upwelling. A carbon mass balance calculation which assumes that river fluxes have been increasing over the last 40 Ma predicts that absolute organic carbon burial increased over this interval while, at the same time, the fraction of carbon buried as organic matter versus carbonate decreased. This implies that the organic carbon cycle has acted as a net source of CO 2 to the atmosphere over the late Cenozoic.

Type of Medium: Online Resource

ISSN: 0883-8305 , 1944-9186

URL: Article

DOI: 10.1029/94PA00289

Language: English

Publisher: American Geophysical Union (AGU)

Publication Date: 1994

detail.hit.zdb_id: 637876-6

detail.hit.zdb_id: 2015231-0

detail.hit.zdb_id: 2916554-4

SSG: 16,13

SSG: 13

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Tectonic forcing of late Cenozoic climate

Raymo, M. E. ; Ruddiman, W. F.

Springer Science and Business Media LLC ; 1992

In: Nature Vol. 359, No. 6391 ( 1992-9), p. 117-122

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In: Nature, Springer Science and Business Media LLC, Vol. 359, No. 6391 ( 1992-9), p. 117-122

Type of Medium: Online Resource

ISSN: 0028-0836 , 1476-4687

URL: Article

DOI: 10.1038/359117a0

RVK:

TA 1000

RVK:

UA 1000

RVK:

WA 15000

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 1992

detail.hit.zdb_id: 120714-3

detail.hit.zdb_id: 1413423-8

SSG: 11

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