Lei Shen scite author profile

Climate warming is increasingly leading to marked changes in plant and animal biodiversity, but it remains unclear how temperatures affect microbial biodiversity, particularly in terrestrial soils. Here we show that, in accordance with metabolic theory of ecology, taxonomic and phylogenetic diversity of soil bacteria, fungi and nitrogen fixers are all better predicted by variation in environmental temperature than pH. However, the rates of diversity turnover across the global temperature gradients are substantially lower than those recorded for trees and animals, suggesting that the diversity of plant, animal and soil microbial communities show differential responses to climate change. To the best of our knowledge, this is the first study demonstrating that the diversity of different microbial groups has significantly lower rates of turnover across temperature gradients than other major taxa, which has important implications for assessing the effects of human-caused changes in climate, land use and other factors.

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Urbanization, sustainability and the utilization of energy and mineral resources in China

Shen

Cheng

Gunson

et al. 2005

Cities

173

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Factory-level measurements on CO2 emission factors of cement production in China

Shen¹,

Tianming²,

Zhao³

et al. 2014

Renewable and Sustainable Energy Reviews

146

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Elaborating the History of Our Cementing Societies: An in-Use Stock Perspective

Cao

Shen

Løvik

et al. 2017

Environ. Sci. Technol.

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Modern cities and societies are built fundamentally based on cement and concrete. The global cement production has risen sharply in the past decades due largely to urbanization and construction. Here we deployed a top-down dynamic material flow analysis (MFA) model to quantify the historical development of cement in-use stocks in residential, nonresidential, and civil engineering sectors of all world countries. We found that global cement production spreads unevenly among 184 countries, with China dominating the global production and consumption after the 1990s. Nearly all countries have shown an increasing trend of per capita cement in-use stock in the past century. The present per capita cement in-use stocks vary from 10 to 40 tonnes in major industrialized and transiting countries and are below 10 tonnes in developing countries. Evolutionary modes identified from historical patterns suggest that per capita in-use cement stock growth generally complies with an S-shape curve and relates closely to affluence and urbanization of a country, but more in-depth and bottom-up investigations are needed to better understand socioeconomic drivers behind stock growth. These identified in-use stock patterns can help us better estimate future demand of cement, explore strategies for emissions reduction in the cement industry, and inform CO uptake potentials of cement based products and infrastructure in service.

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Lei Shen

Temperature mediates continental-scale diversity of microbes in forest soils

Urbanization, sustainability and the utilization of energy and mineral resources in China

Factory-level measurements on CO2 emission factors of cement production in China

Elaborating the History of Our Cementing Societies: An in-Use Stock Perspective

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