Land Use, Microorganisms, and Soil Organic Carbon: Putting the Pieces Together

Mo, Lingzi; Zanella, Augusto; Bolzonella, Cristian; Squartini, Andrea; Xu, Guo-Liang; Banas, Damien; Rosatti, Mauro; Longo, Enrico; Pindo, Massimo; Concheri, Giuseppe; Fritz, Ines; Ranzani, Giulia; Bellonzi, Marco; Campagnolo, Marco; Casarotto, Daniele; Longo, Michele; Linnyk, Vitalyi; Ihlein, Lucas M; Yeomans, Allan James

doi:10.3390/d14080638

Cited by 6 publications

(1 citation statement)

References 101 publications

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“…The fact that we are among the species born at the end of 3.7 billion years of evolution raises fears of a profound functional dependence on living things that existed long before us. Perhaps, the most pressing need is to learn much about the world of microorganisms [39][40][41][42]. The soil, main source of microorganisms, will be treated accordingly in chapter 3.…”

Section: State Of the Artmentioning

confidence: 99%

Soil-Conscious Forestry and the Forbidden Apple

Zanella,

Bernier,

Zampedri

et al. 2023

Preprint

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We propose a silviculture with a purely biological logic that takes soil into account. The article is divided into three parts: 1) presentation of the issue in the context of biodiversity and forest pro-tection; 2) impact of the soil functioning on forestry; 3) possible implementation of soil functioning in forestry practice, to support and protect a non-or minimally anthropized evolution of the forest. The first chapter illustrates the importance of the forest for the future of the planet and our human species, referring to recently published works on the topic of climate warming and biodiversity. The second illustrates the aspects that link soil dynamics to the silvogenetic cycle, focusing on the humipedon (organic and organo-mineral surface horizons, approximately the first 30 cm of forest soil), and more significant carbon storage in old forests since up to 2/3 is found in the soil. In the third chapter we consider the possibility of lengthening the forestry cycle, to allow the return of nutrients to the soil. Theoretical graphs and distribution models of the number of trees as a func-tion of diameter and age are reported, with examples of logging in uneven Alpine forests, with reference to Swiss fir-beech forests published on the Pro-Silva website.

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Section: State Of the Artmentioning

confidence: 99%

Soil-Conscious Forestry and the Forbidden Apple

Zanella,

Bernier,

Zampedri

et al. 2023

Preprint

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Anthropogenic vs. natural habitats: Higher microbial biodiversity pays the trade-off of lower connectivity

Mo,

Zanella,

Squartini

et al. 2024

Microbiological Research

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Tackling climate change: The Albarella island example

Zanella,

Bolzonella,

Rosatti

et al. 2024

PLOS Clim

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We attempted to consider Albarella Island as a model for estimating the ability of humans and the capacity of the environment to react to climate change. On its 550 hectares, this island hosts management centers, 2800 private homes, several restaurants and hotels, shops, public and private swimming pools, a golf course, beaches, green areas equipped to satisfy the 2,000 stable inhabitants and more than 110,000 annual tourists. We collected data on the following variables: 1) net carbon storage of the semi-natural ecosystems; 2) diet of humans staying on the island; 3) currently used fossil energy; 4) electricity demand; 5) waste produced; 6) transport. A dynamic simulation model of the island’s CO2 equivalent (CO2eq) emissions proposes two scenarios that illustrate how these variables can change over the next 10 years if the management remains that of the present day, or switching to all photovoltaics, proposing new diets to inhabitants and tourists, and planting trees on half of the island’s lawns. In the second case, CO2eq emissions lowered to 1/4 of the current value, bringing them to the level of 50-60 years ago. Running the Albarella touristic activities with renewed technology and minimum emissions impact in 2032 produces 4.8 kty-1of CO2eq: 14.5% (0.7 kty-1 of CO2eq) of these emissions could be stored in the ecosystems of the island, 25% (1.2 kty-1) would be produced by the solar panels construction, functionning and recycling that would furnish all the necessary domestic and industrial energy, and 60.5% (2.9 kty-1) would correspond to the emissions to supply the island’s food needs. Theoretically, the technological response works. The implementation of the model on the island is discussed, opening up global perspectives. Maintaining the current level of consumption, with the technical and natural means available today, it is not possible to go below 20% of today’s emissions.

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Land Use, Microorganisms, and Soil Organic Carbon: Putting the Pieces Together

Cited by 6 publications

References 101 publications

Soil-Conscious Forestry and the Forbidden Apple

Soil-Conscious Forestry and the Forbidden Apple

Anthropogenic vs. natural habitats: Higher microbial biodiversity pays the trade-off of lower connectivity

Tackling climate change: The Albarella island example

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