Analysis of Factors Controlling Soil Organic Matter Levels in Great Plains Grasslands

Parton, W. J.; Schimel, D.; Cole, C. V.; Ojima, Dennis S.

doi:10.2136/sssaj1987.03615995005100050015x

Cited by 3,311 publications

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“…We varied leaf chemistry by altering the lignin to nitrogen (N) ratio. We chose this metric because it is a wellestablished control on microbial activity and litter decomposition (Parton et al, 1987), and because we know that the ability of microbes to degrade different substrate lignin/N varies depending on specific traits they posses (Paul and Clark, 1997). Lignin/N ranged from 3.9 to 48.6 (see Supplementary Table S2 for Parameters not listed follow those in Table 1 of Allison (2012).…”

Section: Selection By Leaf Chemistrymentioning

confidence: 99%

Effects of dispersal and selection on stochastic assembly in microbial communities

2016

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Stochastic processes can play an important role in microbial community assembly. Dispersal limitation is one process that can increase stochasticity and obscure relationships between environmental variables and microbial community composition, but the relationship between dispersal, selection and stochasticity has not been described in a comprehensive way. We examine how dispersal and its interactions with drift and selection alter the consistency with which microbial communities assemble using a realistic, individual-based model of microbial decomposers. Communities were assembled under different environmental conditions and dispersal rates in repeated simulations, and we examined the compositional difference among replicate communities colonizing the same type of leaf litter ('within-group distance'), as well as between-group deterministic selection. Dispersal rates below 25% turnover per year resulted in high within-group distance among communities and no significant environmental effects. As dispersal limitation was alleviated, both within-and between-group distance decreased, but despite this homogenization, deterministic environmental effects remained significant. In addition to direct effects of dispersal rate, stochasticity of community composition was influenced by an interaction between dispersal and selection strength. Specifically, communities experiencing stronger selection (less favorable litter chemistries) were more stochastic, possibly because lower biomass and richness intensified drift or priority effects. Overall, we show that dispersal rate can significantly alter patterns of community composition. Partitioning the effects of dispersal, selection and drift based on static patterns of microbial composition will be difficult, if not impossible. Experiments will be required to tease apart these complex interactions between assembly processes shaping microbial communities.

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Section: Selection By Leaf Chemistrymentioning

confidence: 99%

Effects of dispersal and selection on stochastic assembly in microbial communities

2016

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“…We have elected to use the well-established ecosystem model CENTURY. This model, developed at Colorado State University (Parton et al, 1987), simulates C, N, P, and S cycles in various ecosystems, including pastures, forests, crops, and savannas, and can model the impacts of management practices such as fertilization, and cultivation, as well as natural disturbances such as fire and hurricane (Parton et al, 1987(Parton et al, , 1993. This model has also been tested extensively against field measurements from various ecosystems around the world (e.g., Parton et al, 1993;Schimel et al, 1994;Smith et al, 1997) and used for biogeochemical simulation purposes at the regional, continental, and global scales (e.g., Schimel et al, 1994;VEMAP, 1995;Schimel et al, 1997).…”

Section: Ecological Modelingmentioning

confidence: 99%

Carbon dynamics and land-use choices: building a regional-scale multidisciplinary model

Kerr

Liu

Pfaff

et al. 2003

Journal of Environmental Management

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Policy enabling tropical forests to approach their potential contribution to globalclimate-change mitigation requires forecasts of land use and carbon storage on a large scale over long periods. In this paper, we present an integrated modeling methodology that addresses these needs. We model the dynamics of the human land-use system and of C pools contained in each ecosystem, as well as their interactions. The model is national scale, and is currently applied in a preliminary way to Costa Rica using data spanning a period of over fifty years. It combines an ecological process model, parameterized using field and other data, with an economic model, estimated using historical data to ensure a close link to actual behavior. These two models are linked so that ecological conditions affect land-use choices and vice versa. The integrated model predicts land use and its consequences for C storage for policy scenarios. These predictions can be used to create baselines, reward sequestration, and estimate the value in both environmental and economic terms of including C sequestration in tropical forests as part of the efforts to mitigate global climate change. The model can also be used to assess the benefits from costly activities to increase accuracy and thus reduce errors and their societal costs.

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“…A number of models have been used to estimate biomass carbon, soil organic carbon (SOC) stocks, and carbon emissions including the Century Model (Parton et al, 1987), Roth C (Jenkinson et al, 1992) and DNDC (Li, 2002). Some empirical and allometric equations and computer models combined with national forest inventory data are also employed to estimate carbon sequestration and dynamics of forest ecosystems in China (Xu, 1995;Huang et al, 2012;Zhang et al, 2002).…”

Section: Introductionmentioning

confidence: 99%

Carbon benefits of wolfberry plantation on secondary saline land in Jingtai oasis, Gansu – A case study on application of the CBP model

Wang

et al. 2015

Journal of Environmental Management

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Analysis of Factors Controlling Soil Organic Matter Levels in Great Plains Grasslands

Cited by 3,311 publications

References 0 publications

Effects of dispersal and selection on stochastic assembly in microbial communities

Effects of dispersal and selection on stochastic assembly in microbial communities

Carbon dynamics and land-use choices: building a regional-scale multidisciplinary model

Carbon benefits of wolfberry plantation on secondary saline land in Jingtai oasis, Gansu – A case study on application of the CBP model

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