Уважаемые коллеги, доброго времени суток! Представляем вам Economic and Environmental Geology - научное издание из Южной Кореи. Журнал имеет четвертый квартиль, издается в The Korean Society of Economic and Environmental Geology, находится в открытом доступе, его SJR за 2020 г. равен 0,165, печатный ISSN - 1225-7281, электронный - 2288-7962, предметные области - Экономическая геология, Геология, Науки о Земле, Окружающая среда. Вот так выглядит обложка:
Редактором является Сеунг Хва Квон, контактные данные - skwon@yonsei.ac.kr, heelee@pknu.ac.kr, webmaster@kseeg.or.kr.
Это официальный журнал Корейского общества экономической и экологической геологии. Основное внимание в журнале уделяется высокоэффективным оригинальным исследованиям и обзорам в области рудных месторождений, экономической и экологической геологии твердой Земли во всех масштабах. Чтобы лучше представить изменения, с которыми мы сталкиваемся сегодня, особенно поощряется представление документов, основанных на интеграции множества геофизических, геологических, геохимических, гидрогеологических, минералогических и прикладных геологических подходов. В рамках этого пространства издание особенно заинтересовано в продвижении роли экономики и предоставлении научных решений насущных проблем нашего времени: в снижении нашей уязвимости к природным опасностям "твердой земли" и в приложениях для разработки ресурсов. В связи с растущим спросом на доступ к ресурсам Земли и настоятельными потребностями в поиске новых решений для борьбы с вредными отходами мы можем извлечь огромные выгоды из лучшего понимания физики данной необычайно динамичной планеты.
Адрес издания - https://www.kseeg.org/main.html
Пример статьи, название - The Effect of Carbon Dioxide Leaked from Geological Storage Site on Soil Fertility: A Study on Artificial Leakage. Заголовок (Abstract) - Carbon dioxide has been known to be a typical greenhouse gas causing global warming, and a number of efforts have been proposed to reduce its concentration in the atmosphere. Among them, carbon dioxide capture and storage (CCS) has been taken into great account to accomplish the target reduction of carbon dioxide. In order to commercialize the CCS, its safety should be secured. In particular, if the stored carbon dioxide is leaked in the arable land, serious problems could come up in terms of crop growth. This study was conducted to investigate the effect of carbon dioxide leaked from storage sites on soil fertility. The leakage of carbon dioxide was simulated using the facility of its artificial injection into soils in the laboratory. Several soil chemical properties, such as pH, cation exchange capacity, electrical conductivity, the concentrations of exchangeable cations, nitrogen (N) (total-N, nitrate-N, and ammonia- N), phosphorus (P) (total-P and available-P), sulfur (S) (total-S and available-S), available-boron (B), and the contents of soil organic matter, were monitored as indicators of soil fertility during the period of artificial injection of carbon dioxide. Two kinds of soils, such as non-cultivated and cultivated soils, were compared in the artificial injection tests, and the latter included maize- and soybeancultivated soils. The non-cultivated soil (NCS) was sandy soil of 42.6% porosity, the maize-cultivated soil (MCS) and soybeancultivated soil (SCS) were loamy sand having 46.8% and 48.0% of porosities, respectively. The artificial injection facility had six columns: one was for the control without carbon dioxide injection, and the other five columns were used for the injections tests. Total injection periods for NCS and MCS/SCS were 60 and 70 days, respectively, and artificial rainfall events were simulated using one pore volume after the 12-day injection for the NCS and the 14-day injection for the MCS/SCS. After each rainfall event, the soil fertility indicators were measured for soil and leachate solution, and they were compared before and after the injection of carbon dioxide. The results indicate that the residual concentrations of exchangeable cations, total-N, total-P, the content of soil organic matter, and electrical conductivity were not likely to be affected by the injection of carbon dioxide. However, the residual concentrations of nitrate-N, ammonia-N, available-P, available-S, and available-B tended to decrease after the carbon dioxide injection, indicating that soil fertility might be reduced. Meanwhile, soil pH did not seem to be influenced due to the buffering capacity of soils, but it is speculated that a long-term leakage of carbon dioxide might bring about soil acidification.Keywords: carbon dioxide, geological storage, leakage, soil fertility, artificial injection test