THE ORGANIC MATTER OF THE BURIED PEAT SOILS ON BELY ISLAND (KARA SEA)

Abstract In the context of the implementation of environmental, resource-saving systems of agriculture, research in the system of biogeocenosis is very relevant: soil – plant-feed-animal-livestock products. Peatlands and developed peat soils are a kind of environment for human activity in this system. As a result of many years of research, it was found that perennial grasses grown on peat soils have differences in chemical composition compared to plants grown on mineral soils. They contain more organic matter and raw protein. However, their digestibility of nutrients is lower than in herbs grown on mineral soils. Therefore, for a full-fledged balanced feeding of cows, the realization of the genetic potential of animal productivity, and the preservation of their health, scientifically-based diets are necessary, developed on the basis of bulky feeds obtained from peat and developed soils, with the introduction of appropriate feed additives in them.

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Genesis of organic matter in the Kara Sea bottom sediments

Oceanology ◽

10.1134/s0001437011040187 ◽

2011 ◽

Vol 51 (4) ◽

pp. 608-615 ◽

Cited By ~ 4

Author(s):

A. A. Vetrov ◽

E. A. Romankevich

Keyword(s):

Organic Matter ◽

Bottom Sediments ◽

Kara Sea ◽

Sea Bottom

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The role of zooplankton in the transformation of the organic matter in the Ob estuary, on the shelf, and in the deep regions of the Kara Sea

Oceanology ◽

10.1134/s0001437010050140 ◽

2010 ◽

Vol 50 (5) ◽

pp. 780-792 ◽

Cited By ~ 8

Author(s):

E. G. Arashkevich ◽

M. V. Flint ◽

A. B. Nikishina ◽

A. F. Pasternak ◽

A. G. Timonin ◽

...

Keyword(s):

Organic Matter ◽

Kara Sea

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Influence of temperature upon the mobilization of nitrogen in peat

Agricultural and Food Science ◽

10.23986/afsci.71345 ◽

1953 ◽

Vol 25 (1) ◽

pp. 37-46

Author(s):

Armi Kaila ◽

Jaakko Köylijärvi ◽

Erkki Kivinen

Keyword(s):

Organic Matter ◽

Total Nitrogen ◽

Considerable Increase ◽

Ammonia Nitrogen ◽

Mineral Nitrogen ◽

Chemical Transformations ◽

Peat Soils ◽

Ammonia Content ◽

Marked Accumulation ◽

Thermophilic Organisms

The preliminary experiments the results of which are recorded in the present paper, have been carried out in order to obtain some information on the microbiological and chemical mobilization of peat nitrogen at various temperatures. In the incubation experiment at 5°, 20°, 35°, 50°, and 65CC the accumulation of ammonia nitrogen increased with a rising temperature except in the limed series where a minimum was found at 20°. The maximum of nitrate-nitrogen lay at 20 in both the series. The amount of nitrite-nitrogen was almost negligible in all the samples. The mineral nitrogen in the samples incubated at 50° and 65° represented 10—20 % of the total nitrogen. Thus, the organic nitrogen in peat soils can be mobilized to a marked extent, if the conditions are favourable. Accumulation of mineral nitrogen could be stated also at the lower temperatures where the reutilization of released nitrogen in the synthesis of new microbial substance is always more intensive than in the range of thermophilic organisms. Even at 5° a release of nitrogen was noticable. In these experiments liming did not show any beneficial effect upon the accumulation of mineral nitrogen, on the contrary, the values for total nitrogen and ammonia nitrogen were lower in the limed series. The nitrate formation was generally somewhat higher in the limed samples than in the corresponding unlimed ones. It was supposed that the considerable increase in the ammonia content of the samples incubated at 50° and 65° was partly due to purely chemical transformations, since the mere heating of moist samples at 75° for two hours brought about a marked accumulation of ammonia nitrogen. The treatment with dry heat was less effective except when the temperature was raised to 200° in which case a carbonization of the peat took place. The losses of organic matter and of total nitrogen due to the heating were almost negligible at the temperatures below 150°. At 150° and at 200°, respectively, about one tenth and one third of the organic matter was burnt up, and the losses of total nitrogen corresponded to approximately one half of the decrease in dry matter. On the basis of the results reported above valid conclusions ought not to be drawn, since the material is too scarce. However, these experiments indicate that reasons for further research exist.

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Water-extractable organic matter in the profile of mineral and organic soils of Upper Dniester alluvial plane

Proceedings of the State Natural History Museum Vol. 33 - Proceedings of the State Natural History Museum ◽

10.36885/nzdpm.2017.33.181-190 ◽

2017 ◽

pp. 181-190

Author(s):

Partyka T. ◽

Hamkalo Z.

Keyword(s):

Organic Matter ◽

Cold Water ◽

Dynamic Equilibrium ◽

Peat Soil ◽

Organic Soils ◽

Peat Soils ◽

Soil Layers ◽

Labile Pool ◽

Mineral Soils ◽

Extractable Organic Matter

Content of cold water extracted organic matter (CWEOM) in organic and mineral soils of Upperdniester alluvial plane was estimated. The largest CWEOM content (mg∙100 g-1) in the upper (10 cm) soil layers was found in peat soils – 105-135, and the smallest – 20-30– in arable sod and meadow soils. The highest CWEOM content was found in the lower horizons of peat soil, where it reaches 290 mg∙100 g-1. Strong correlation (r=0.81 -0.99; P<0.05) between CWEOM and TOC was found. It indicates the presence of dynamic equilibrium in the SOM system that supports certain level of labile pool compounds – the main source of bioavailable materials and energy.

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The proteins of different types of peat soils

The Journal of Agricultural Science ◽

10.1017/s0021859600009254 ◽

1928 ◽

Vol 18 (4) ◽

pp. 682-690 ◽

Cited By ~ 5

Author(s):

W. L. Davies

Keyword(s):

Hydrogen Peroxide ◽

Organic Matter ◽

Hydrochloric Acid ◽

Soil Nitrogen ◽

Caustic Potash ◽

The Other ◽

Nitrogen Compounds ◽

Soluble Nitrogen ◽

Peat Soils ◽

Different Types

The study has comprised a detailed analysis of twelve samples of soil, ten of which were samples of typical peat soils, the other two being samples of normal soils. The degree of humification of the organic matter of the samples varied, that in the wet peats being high and low in the dry peats.Extracts of the soil were obtained by the use of boiling hydrogen peroxide, 20 per cent, hydrochloric acid and 2·5 per cent, caustic potash.Hydrogen peroxide extracted roughly 70–80 per cent, of the soil nitrogen, 60–70 per cent, of this soluble nitrogen appearing as ammonia through the oxidising effects of the reagent. The nitrogen compounds of wet peats were more easily oxidisable to ammonia.

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Hydrological conditions and peat constitution effect on DOC leaching from permafrost-affected soils: model experiment (Western Siberia, Russia)

10.5194/egusphere-egu2020-590 ◽

2020 ◽

Author(s):

Maria Timofeeva ◽

Olga Goncharova ◽

Georgy Matyshak

Keyword(s):

Organic Matter ◽

Model Experiment ◽

Hydrological Regime ◽

Basic Research ◽

Permafrost Degradation ◽

Carbon Export ◽

Peat Soils ◽

Mineral Horizon ◽

Hydrological Conditions ◽

Discontinuous Permafrost

In the northern ecosystems&#8217; soils, the carbon stock is preserved in peat soils which includes frozen peat. It is vulnerable to any climate changes. The permafrost degradation can affect both the quantity and the composition of dissolved organic carbon of permafrost-affected soils, especially peat soils.The main aim of our study was to determine the relationship among peat type, water regime and the quantity and composition of water borne carbon export. The research site was located in the discontinuous permafrost zone (N65&#186;18&#8217;, E72&#186;52&#8217;). Monoliths of various peat soils were collected in summer 2019 for a laboratory experiment.The experiments were carried out with 6 types of monoliths (oligotrophic fibric peat; oligotrophic hemic peat with lichen debris; eutrophic hemic peat with reindeer moss debris; eutrophic sapric peat; eutrophic sapric peat with a burnt horizon; oligotrophic fibric peat, underlied with sand). We try to understand how organic matter is leached from peat soils with different constitution and different degree of decomposition. In the model experiment, we simulated 3 types of hydrological conditions. Soil monoliths were watered, and the contents of DOC and POC were determined in the collected soil waters.<ol><li>Simulation of the moderate rainfall (70 mm) by adding distilled water during the week. DOC in this case ranged from 44,2&#177;3.0 mg/l in oligotrophic peat to 80,6&#177;28,7 mg/l in eutrophic peat.</li> <li>The simultaneous flow of large quantities of water, simulating prolonged rainfall or spring snowmelt. In this case DOC content leaching from fibric oligotrophic peat didn`t change much while DOC leaching from sapric eutrophic peat decreased in comparison with moderate rainfall.</li> <li>During modeling short stagnant regimen (spring conditions) we observed increase DOC, especially in sapric eutrophic peat (up to 291,0&#177;11,3 mg/l). The mineral horizon under the peat layer reduced the rate of leaching of organic substances from the soil.</li> </ol>Our results indicate the significant role of both the peat constitution and hydrological regime of soils on the rate and amount of organic matter entering the hydrological basin from peat permafrost-affected soils. The data can be used to simulate the dynamics of permafrost ecosystems with changing climatic parameters or with the activation of anthropogenic load.This research was supported by the Russian Foundation for Basic Research (Grant 18-04-00952)

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