Comparison of Topsoil Organic Carbon Stocks on Slopes under Soil-Protecting Forests in Relation to the Adjacent Agricultural Slopes

Wiśniewski, Paweł; Maerker, Michael

doi:10.3390/f12040390

Cited by 13 publications

(8 citation statements)

References 42 publications

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“…The choice of the time of re-treatment is due to the period of active vital activity of plant growth and maturation, which allows for the process of intensive accumulation of radionuclides by them [5]. The use of aqueous solutions of ammonium nitrate and microorganisms in the proposed method will intensify the transition of radionuclides into soluble forms for assimilation by the root system of plants, obtaining maximum biomass of plants accumulating radionuclides, and significantly reducing the growing season [6].…”

Section: Resultsmentioning

confidence: 99%

Recultivation of soils contaminated with radionuclides by phytomelioration

Rahimova

Baitelova²,

Solopova³

et al. 2023

E3S Web of Conf.

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The use of aqueous solutions of ammonium nitrate and microorganisms in the proposed method will intensify the transition of radionuclides into soluble forms for assimilation by the root system of plants, obtaining maximum biomass of plants accumulating radionuclides, and significantly reducing the growing season. The process of obtaining biomass using the above technology makes it possible to repeat this method of purification many times, including within one seasonal period, until the content of radionuclides in the soil reaches acceptable values, after which the soil becomes suitable for agricultural use. The purpose of the study. Consider the transition of radionuclides into soluble forms for assimilation by the root system of plants. Material and Methods. To substantiate the possible directions of soil reclamation, we propose a conceptual model of radionuclide transport in the agrocenosis, on the basis of which a functional scheme for recultivation of soils contaminated with radionuclides has been developed. The collected biomass and the root system of plants must be disposed of. Due to the fact that large volumes of mass are subject to disposal, it is subjected to heat treatment - drying.

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Section: Resultsmentioning

confidence: 99%

Recultivation of soils contaminated with radionuclides by phytomelioration

Rahimova

Baitelova²,

Solopova³

et al. 2023

E3S Web of Conf.

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“…These small temperature ranges suggest that M. notabilis has limited adaptability to varying temperatures and may not be suitable for regions like Inner Mongolia or Xinjiang due to their harsh climate conditions characterized by low precipitation or large temperature differences between day and night, respectively [38]. For successful planting guidelines for M. notabilis trees, it is recommended that the soil be irrigated and well-drained with high fertility levels [39].…”

Section: Discussionmentioning

confidence: 99%

Predicting the Distributions of Morus notabilis C. K. Schneid under Climate Change in China

Gao,

Qian,

Deng

et al. 2024

Forests

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As one of the common mulberry tree species, Morus notabilis C. K. Schneid plays a significant role in various industries such as silkworm rearing, papermaking, and medicine due to its valuable mulberry leaves, fruits, and wood. This study utilizes the maximum entropy (MaxEnt) model to predict the potential distribution of M. notabilis in China under future environmental changes. By integrating the relative percentage contribution score of environmental factors with jackknife test analysis, important variables influencing the distribution of M. notabilis were identified along with their optimal values. The results indicate that Annual Precipitation (bio12), Precipitation of Driest Month (bio14), Min Temperature of Coldest Month (bio6), Temperature Annual Range (bio5-bio6) (bio7), Precipitation of Warmest Quarter (bio18), and Precipitation of Coldest Quarter (bio19) are the primary environmental variables affecting its potential distribution. Currently, M. notabilis exhibits high suitability over an area spanning 11,568 km2, while medium suitability covers 34,244 km2. Both current and future suitable areas for M. notabilis are predominantly concentrated in Sichuan, Yunnan, and Guizhou provinces, as well as Chongqing city in southwest China. Under the SSP5-8.5 scenario representing high greenhouse gas concentrations by 2050s and 2090s, there is an increase in high suitability area by 2952 km2 and 3440 km2, with growth rates reaching 25.52% and 29.74%, respectively. Notably, these two scenarios exhibit substantial expansion in suitable habitats for this species compared to others analyzed within this study period.

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“…The amount of groundwater resources depends on the geological structure of the considered area and the degree of infiltration [ 49 , 50 ]. In order to increase groundwater and groundwater retention, it is necessary to limit surface runoff by applying appropriate anti-erosion measures (e.g., the creation of compact turf using grasses and some dicotyledonous herbaceous species, afforestation), and increasing soil permeability by using appropriate anti-erosion and phytomeliorative treatments [ 51 , 52 , 53 , 54 ]. Fourthly, surface water retention is considered the best form of water storage in natural (and artificial) reservoirs [ 55 , 56 ], as it significantly improves the water balance, leaving the landscape unchanged.…”

Section: Issues That Need To Be Addressed Regarding the Recovery Of U...mentioning

confidence: 99%

Plant-Based Solutions for Non-Productive Sites Useful in the Management of Dry Land

Hanus-Fajerska

Kępka

Kruszyna

et al. 2023

Plants

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The article presents an overview of research conducted in recent years, i.e., from 2004 until now. The study has been prompted by the threat of drought over large land areas which, as a result of current climate change, may lead to desertification in dry and hot regions of the world. For the same reason, large areas of farmland are affected by drought stress. At the same time, rising air temperatures result in a significant intensification of evaporation and a gradual increase in soil salinity. This applies in particular to acres of farmland, forested areas, and green areas of cities, as well as degraded land or brownfields. As the crop stability is threatened, the food base of the world’s population is at risk and, additionally, in areas of industrial districts, people’s health is in decline. Due to these multistress conditions for plant growth, we propose a review of the current literature which addresses the possibility of counteracting these unfavorable phenomena through the appropriate selection of plant species and, when only applicable, also through specific agroecological treatments. A selection of herbaceous and woody plants useful for cultivation on saline marginal lands was proposed.

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Comparison of Topsoil Organic Carbon Stocks on Slopes under Soil-Protecting Forests in Relation to the Adjacent Agricultural Slopes

Cited by 13 publications

References 42 publications

Recultivation of soils contaminated with radionuclides by phytomelioration

Recultivation of soils contaminated with radionuclides by phytomelioration

Predicting the Distributions of Morus notabilis C. K. Schneid under Climate Change in China

Plant-Based Solutions for Non-Productive Sites Useful in the Management of Dry Land

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