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Knight, Clarke A. ; Battles, John J. ; Bunting, M. Jane ; [weitere]

Frontiers Media SA ; 2022

In: Frontiers in Ecology and Evolution Vol. 10 ( 2022-8-25)

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In: Frontiers in Ecology and Evolution, Frontiers Media SA, Vol. 10 ( 2022-8-25)

Kurzfassung: Pollen accumulation rates (PAR, grains cm –2 year –1 ) have been shown to be a reliable but methodologically complex bioproxy for quantitative reconstruction of past tree abundance. In a prior study, we found that the PARs of major tree taxa – Pseudotsuga , Pinus , Notholithocarpus , and the pollen group TC (Taxaceae and Cupressaceae families) – were robust and precise estimators of contemporary tree biomass. This paper expands our earlier work. Here, we more fully evaluate the errors associated with biomass reconstructions to identify weaknesses and recommend improvements in PAR-based reconstructions of forest biomass. We account for uncertainty in our biomass proxy in a formal, coherent fashion. The greatest error was introduced by the age models, underscoring the need for improved statistical approaches to age-depth modeling. Documenting the uncertainty in pollen vegetation models should be standard practice in paleoecology. We also share insights gained from the delineation of the relevant source area of pollen, advances in Bayesian 210 Pb modeling, the importance of site selection, and the use of independent data to corroborate biomass estimates. Lastly, we demonstrate our workflow with a new dataset of reconstructed tree biomass between 1850 and 2018 AD from lakes in the Klamath Mountains, California. Our biomass records followed a broad trend of low mean biomass in the ∼1850s followed by large contemporary increases, consistent with expectations of forest densification due to twentieth century fire suppression policies in the American West. More recent reconstructed tree biomass estimates also corresponded with silviculture treatments occurring within the relevant source area of pollen of our lake sites.

Materialart: Online-Ressource

ISSN: 2296-701X

URL: Article

DOI: 10.3389/fevo.2022.956143

DOI: 10.3389/fevo.2022.956143.s001

Sprache: Unbekannt

Verlag: Frontiers Media SA

Publikationsdatum: 2022

ZDB Id: 2745634-1

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Preliminary pollen record from Echo Lake, Ruby Mountains, Nevada

Wanket, James A. ; Wahl, David B. ; Kusler, Jennifer E.

Elsevier BV ; 2015

In: Quaternary International Vol. 387 ( 2015-11), p. 149-

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In: Quaternary International, Elsevier BV, Vol. 387 ( 2015-11), p. 149-

Materialart: Online-Ressource

ISSN: 1040-6182

URL: Article

DOI: 10.1016/j.quaint.2015.01.185

Sprache: Englisch

Verlag: Elsevier BV

Publikationsdatum: 2015

ZDB Id: 2002133-1

ZDB Id: 1077692-8

SSG: 13

SSG: 14

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Linking modern pollen accumulation rates to biomass: Quantitative vegetation reconstruction in the western Klamath Mountains, NW California, USA

Knight, Clarke A ; Baskaran, Mark ; Bunting, M Jane ; [weitere]

SAGE Publications ; 2021

In: The Holocene Vol. 31, No. 5 ( 2021-05), p. 814-829

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In: The Holocene, SAGE Publications, Vol. 31, No. 5 ( 2021-05), p. 814-829

Kurzfassung: Quantitative reconstructions of vegetation abundance from sediment-derived pollen systems provide unique insights into past ecological conditions. Recently, the use of pollen accumulation rates (PAR, grains cm −2 year −1 ) has shown promise as a bioproxy for plant abundance. However, successfully reconstructing region-specific vegetation dynamics using PAR requires that accurate assessments of pollen deposition processes be quantitatively linked to spatially-explicit measures of plant abundance. Our study addressed these methodological challenges. Modern PAR and vegetation data were obtained from seven lakes in the western Klamath Mountains, California. To determine how to best calibrate our PAR-biomass model, we first calculated the spatial area of vegetation where vegetation composition and patterning is recorded by changes in the pollen signal using two metrics. These metrics were an assemblage-level relevant source area of pollen (aRSAP) derived from extended R-value analysis ( sensu Sugita, 1993) and a taxon-specific relevant source area of pollen (tRSAP) derived from PAR regression ( sensu Jackson, 1990). To the best of our knowledge, aRSAP and tRSAP have not been directly compared. We found that the tRSAP estimated a smaller area for some taxa (e.g. a circular area with a 225 m radius for Pinus) than the aRSAP (a circular area with a 625 m radius). We fit linear models to relate PAR values from modern lake sediments with empirical, distance-weighted estimates of aboveground live biomass (AGL dw ) for both the aRSAP and tRSAP distances. In both cases, we found that the PARs of major tree taxa – Pseudotsuga, Pinus, Notholithocarpus, and TCT (Taxodiaceae, Cupressaceae, and Taxaceae families) – were statistically significant and reasonably precise estimators of contemporary AGL dw . However, predictions weighted by the distance defined by aRSAP tended to be more precise. The relative root-mean squared error for the aRSAP biomass estimates was 9% compared to 12% for tRSAP. Our results demonstrate that calibrated PAR-biomass relationships provide a robust method to infer changes in past plant biomass.

Materialart: Online-Ressource

ISSN: 0959-6836 , 1477-0911

URL: Article

DOI: 10.1177/0959683620988038

RVK:

RA 1000

Sprache: Englisch

Verlag: SAGE Publications

Publikationsdatum: 2021

ZDB Id: 2027956-5

SSG: 14

SSG: 3,4

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Settlement‐era forest structure and composition in the Klamath Mountains: reconstructing a historical baseline

Knight, Clarke A. ; Cogbill, Charles V. ; Potts, Matthew D. ; [weitere]

Wiley ; 2020

In: Ecosphere Vol. 11, No. 9 ( 2020-09)

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In: Ecosphere, Wiley, Vol. 11, No. 9 ( 2020-09)

Kurzfassung: Historical baselines of forest conditions provide reference states to assess how forests have changed through time. In California, the Public Land Survey System (PLSS) provides tree inventory data between 1872 and 1884 at 93.2‐km 2 (36 mi 2 ) resolution. Although these data provide a spatially extensive record of settlement‐era forest conditions, reconstructions using PLSS data have been limited and controversial in western landscapes. Recent improvements in the application of plotless density estimators (PDE) have made reconstructions more accurate and robust. The purpose of this study was to use PDE to reconstruct the settlement‐era forest conditions in Six Rivers National Forest—a floristically diverse temperate forest in the Klamath Mountains of northwestern California—to quantify differences with modern conditions. Records of fires and harvests were used in conjunction with the PLSS data to understand the influence of forest management during the previous century. The contemporary forest in Six Rivers contains three times more trees than in the settlement era with a comparable increase in tree basal area. Forest composition during the settlement era was predominantly Douglas‐fir (34.4%), pine (24.2%), and oak (21.9%) by basal area. Contemporary forests support more Douglas‐fir (45.2%) and a similar amount of pine (26.1%), while oaks have decreased by more than half (9.3%). These increases in tree abundance occurred despite extensive, mid‐century timber harvesting in Six Rivers. Although large fires have burned in Six Rivers between 2000 and 2019, far fewer fires occurred during the twentieth century. Our results suggest that effective fire suppression contributed to the densification of the contemporary forests in Six Rivers.

Materialart: Online-Ressource

ISSN: 2150-8925 , 2150-8925

URL: Issue

URL: Article

DOI: 10.1002/ecs2.v11.9

DOI: 10.1002/ecs2.3250

Sprache: Englisch

Verlag: Wiley

Publikationsdatum: 2020

ZDB Id: 2572257-8

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Variable impact of late-Quaternary megafaunal extinction in causing ecological state shifts in North and South America

Barnosky, Anthony D. ; Lindsey, Emily L. ; Villavicencio, Natalia A. ; [weitere]

Proceedings of the National Academy of Sciences ; 2016

In: Proceedings of the National Academy of Sciences Vol. 113, No. 4 ( 2016-01-26), p. 856-861

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In: Proceedings of the National Academy of Sciences, Proceedings of the National Academy of Sciences, Vol. 113, No. 4 ( 2016-01-26), p. 856-861

Kurzfassung: Loss of megafauna, an aspect of defaunation, can precipitate many ecological changes over short time scales. We examine whether megafauna loss can also explain features of lasting ecological state shifts that occurred as the Pleistocene gave way to the Holocene. We compare ecological impacts of late-Quaternary megafauna extinction in five American regions: southwestern Patagonia, the Pampas, northeastern United States, northwestern United States, and Beringia. We find that major ecological state shifts were consistent with expectations of defaunation in North American sites but not in South American ones. The differential responses highlight two factors necessary for defaunation to trigger lasting ecological state shifts discernable in the fossil record: ( i ) lost megafauna need to have been effective ecosystem engineers, like proboscideans; and ( ii ) historical contingencies must have provided the ecosystem with plant species likely to respond to megafaunal loss. These findings help in identifying modern ecosystems that are most at risk for disappearing should current pressures on the ecosystems’ large animals continue and highlight the critical role of both individual species ecologies and ecosystem context in predicting the lasting impacts of defaunation currently underway.

Materialart: Online-Ressource

ISSN: 0027-8424 , 1091-6490

URL: Article

DOI: 10.1073/pnas.1505295112

RVK:

TA 1000

RVK:

WA 15000

Sprache: Englisch

Verlag: Proceedings of the National Academy of Sciences

Publikationsdatum: 2016

ZDB Id: 209104-5

ZDB Id: 1461794-8

SSG: 11

SSG: 12

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Land management explains major trends in forest structure and composition over the last millennium in California’s Klamath Mountains

Knight, Clarke A. ; Anderson, Lysanna ; Bunting, M. Jane ; [weitere]

Proceedings of the National Academy of Sciences ; 2022

In: Proceedings of the National Academy of Sciences Vol. 119, No. 12 ( 2022-03-22)

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In: Proceedings of the National Academy of Sciences, Proceedings of the National Academy of Sciences, Vol. 119, No. 12 ( 2022-03-22)

Kurzfassung: For millennia, forest ecosystems in California have been shaped by fire from both natural processes and Indigenous land management, but the notion of climatic variation as a primary controller of the pre-colonial landscape remains pervasive. Understanding the relative influence of climate and Indigenous burning on the fire regime is key because contemporary forest policy and management are informed by historical baselines. This need is particularly acute in California, where 20th-century fire suppression, coupled with a warming climate, has caused forest densification and increasingly large wildfires that threaten forest ecosystem integrity and management of the forests as part of climate mitigation efforts. We examine climatic versus anthropogenic influence on forest conditions over 3 millennia in the western Klamath Mountains—the ancestral territories of the Karuk and Yurok Tribes—by combining paleoenvironmental data with Western and Indigenous knowledge. A fire regime consisting of tribal burning practices and lightning were associated with long-term stability of forest biomass. Before Euro-American colonization, the long-term median forest biomass was between 104 and 128 Mg/ha, compared to values over 250 Mg/ha today. Indigenous depopulation after AD 1800, coupled with 20th-century fire suppression, likely allowed biomass to increase, culminating in the current landscape: a closed Douglas fir–dominant forest unlike any seen in the preceding 3,000 y. These findings are consistent with precontact forest conditions being influenced by Indigenous land management and suggest large-scale interventions could be needed to return to historic forest biomass levels.

Materialart: Online-Ressource

ISSN: 0027-8424 , 1091-6490

URL: Article

DOI: 10.1073/pnas.2116264119

RVK:

TA 1000

RVK:

WA 15000

Sprache: Englisch

Verlag: Proceedings of the National Academy of Sciences

Publikationsdatum: 2022

ZDB Id: 209104-5

ZDB Id: 1461794-8

SSG: 11

SSG: 12

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