Great uncertainties in modeling grazing impact on carbon sequestration: a multi-model inter-comparison in temperate Eurasian Steppe

Chen, Yizhao; Tao, Yuwen; Cheng, Yuhua; Ju, Weimin; Ye, Jingyi; Hickler, Thomas; Liao, Cuijuan; Feng, Libo; Ruan, Honghua

doi:10.1088/1748-9326/aacc75

Cited by 15 publications

(12 citation statements)

References 74 publications

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“…However, much of current understanding of ecosystem sensitivity to precipitation variability is derived from responses of above‐ground net primary productivity (ANPP) to precipitation (Knapp et al, 2017b) and assessed independently of grazing effects (but see Irisarri et al, 2016), despite grazing being the predominant land‐use of grasslands (Asner et al, 2004). As such, understanding ecosystem responses to the interactive effects of co‐occurring factors is critical, and a reliable benchmark is needed for predicting ecosystem sensitivity robustly from ecosystem models (Dangal et al, 2017; Chen et al, 2018; Ma et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

Grazing alters the sensitivity of plant productivity to precipitation in northern temperate grasslands

Batbaatar

Bork

Broadbent

et al. 2021

J Vegetation Science

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Questions: Inter-annual variability in precipitation is expected to increase in grasslands, potentially causing additional stress to systems already impacted by anthropogenic activities such as livestock grazing, which can induce changes to grassland vegetation. Yet, the sensitivity of key ecosystem functions to these co-occurring factors is often overlooked. Here, we determine: (a) the effects of grazing on the sensitivity of above-ground net primary productivity (ANPP sensitivity) to interannual variation in water-year precipitation (the sum of precipitation from September through to the following August); (b) whether ANPP sensitivity to precipitation is associated with shifts induced by grazing in functional group biomass (grass vs forb) contribution to total ANPP, litter, and species richness, and mean annual water-year precipitation; and (c) whether the impacts of grazing on ANPP vary between dry and wet years.Location: Native grasslands in Alberta, Canada. Methods:We used long-term (14-28 years) ANPP and precipitation data from 31 grazed grasslands, each with a paired non-grazed livestock exclosure. ANPP was sampled annually within exclosures and adjacent grazed locations at each site. Results:We found that grazing increased ANPP sensitivity to inter-annual changes in precipitation. Increased ANPP sensitivity to precipitation in grazed, relative to non-grazed locations was associated with both an increase in the contribution of forbs to total ANPP and a decrease in the contribution of grasses to total ANPP; reduced litter also increased ANPP sensitivity to precipitation. Species richness was not associated with ANPP sensitivity in both grazed and non-grazed locations. Arid grasslands were more sensitive to inter-annual variation in precipitation when grazed than were mesic grasslands. Similarly, grazing reduced ANPP during dry years but had no effect during wet years. Conclusions:Overall, these findings suggest that grazed grasslands are more vulnerable to reductions in primary productivity in dry years, which may present a challenge for maintaining ecosystem services in an era of increasing precipitation variability.

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Section: Introductionmentioning

confidence: 99%

Grazing alters the sensitivity of plant productivity to precipitation in northern temperate grasslands

Batbaatar

Bork

Broadbent

et al. 2021

J Vegetation Science

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“…The grazing process has recently been explicitly represented in global models (Chang et al, 2013; Luo et al, 2012; Pachzelt et al, 2013). However, large uncertainties still exist in modeling grazing activity (Chen et al, 2018; Fetzel et al, 2017; Zhou et al, 2017). A standard data set seems to be necessary to diagnose and benchmark the models.…”

Section: Discussionmentioning

confidence: 99%

“…Currently, several models have been incorporated into Global Vegetation Models and plan to be consider in future intermodel comparison projects (Erb et al, 2017; Pongratz et al, 2017). With the increasing model developments and applications, however, great uncertainties were found in both approaches at large scales (Chen et al, 2018; Fetzel et al, 2017). Therefore, a spatial‐explicit diagnostic tool or data set is urgently needed for model evaluation, benchmarking, and future improvement.…”

Section: Introductionmentioning

confidence: 99%

Explicit Representation of Grazing Activity in a Diagnostic Terrestrial Model: A Data‐Process Combined Scheme

Chen

et al. 2019

J Adv Model Earth Syst

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Grazing activity is a fundamental behavior in pasture ecosystems and, globally, is a major disturbance that leads to destruction of terrestrial biomass. However, its impact on ecosystem C sequestration at large scales is not well understood due to its obvious anthropogenic property. In this study, we proposed a Data‐Process combined Grazing Scheme (DPGS) to quantify the regional grazing impact on ecosystem C sequestration in the typical pasture ecosystem, Temperate Eurasian Steppe. First, a pixel‐based livestock distribution map was generated based on fine‐scale (province/prefecture) inventory data using a resource‐oriented livestock distribution approach. Then the C consumption due to grazing (Closs,graze) was simulated by combining a late version of a remote‐sensing‐based terrestrial model, the Boreal Ecosystem Productivity Simulator and the Shiyomi grazing model. The modeled regional livestock density was evaluated against the Gridded Livestock of the World data set. The DPGS was able to reproduce the spatial distribution of livestock. Because extralarge herbivores (camel and horse) were involved in the calculation, the DPGS predicts higher livestock density than the Gridded Livestock of the World data set over 70% of the region. The modeled Closs,graze and its seasonal variability were validated against multiple site‐based data sets. The results showed good agreements with the field observations of Closs,graze. With further tests and data incorporations, this scheme has the potential to produce high‐resolution data sets of livestock distribution and Closs,graze and become a useful diagnostic instrument for model evaluation, parameterization, and intercomparison.

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“…In addition, the variety of livestock systems in operation globally complicates the discussion surrounding the effects of climate change (Lopez-i-Gelats 2014;Rivera-Ferre et al 2016). Inter-model uncertainty (e.g., what Chen et al (2018) demonstrated regarding carbon sequestration from grazing activity) also remains a problem.…”

Section: Pasture and Livestockmentioning

confidence: 99%

Identifying key processes and sectors in the interaction between climate and socio-economic systems: a review toward integrating Earth–human systems

Tachiiri

Matsumoto

2021

Prog Earth Planet Sci

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For the purpose of identifying the key processes and sectors involved in the interaction between Earth and socio-economic systems, we review existing studies on those processes/sectors through which the climate impacts socio-economic systems, which then in turn affect the climate. For each process/sector, we review the direct physical and ecological impacts and, if available, the impact on the economy and greenhouse gas (GHG) emissions. Based on this review, land sector is identified as the process with the most significant impact on GHG emissions, while labor productivity has the largest impact on the gross domestic product (GDP). On the other hand, the energy sector, due to the increase in the demand for cooling, will have increased GHG emissions. Water resources, sea level rise, natural disasters, ecosystem services, and diseases also show the potential to have a significant influence on GHG emissions and GDP, although for most of these, a large effect was reported only by a limited number of studies. As a result, more studies are required to verify their influence in terms of feedbacks to the climate. In addition, although the economic damage arising from migration and conflict is uncertain, they should be treated as potentially damaging processes.

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Great uncertainties in modeling grazing impact on carbon sequestration: a multi-model inter-comparison in temperate Eurasian Steppe

Cited by 15 publications

References 74 publications

Grazing alters the sensitivity of plant productivity to precipitation in northern temperate grasslands

Grazing alters the sensitivity of plant productivity to precipitation in northern temperate grasslands

Explicit Representation of Grazing Activity in a Diagnostic Terrestrial Model: A Data‐Process Combined Scheme

Identifying key processes and sectors in the interaction between climate and socio-economic systems: a review toward integrating Earth–human systems

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