Fe-Modified Biochar Improves Tobacco Productivity by Promoting Root Growth, Plant Biochemical Traits and Nicotine Level: A Three Years Field Study

Journal of soil science and plant nutrition, Год журнала: 2025, Номер unknown

Опубликована: Фев. 11, 2025

Язык: Английский

Comparative effects of different types and doses of biochar on soil quality indicators and arugula growth under saline conditions

Scientific Reports, Год журнала: 2025, Номер 15(1)

Опубликована: Март 24, 2025

Abstract Population and food demand increased rapidly so to face this increment; we must dramatically increase crop production ensure global security. Hence, saline agriculture is a possible solution for producing in salt-affected soils using water irrigation. The objectives of study were investigate the effects applying different types doses biochar soil under irrigation by on quality indicators growth parameters yield arugula plant. Four biochar: banana leaves (BLB), rice straw (RSB), sorghum stalks (SSB), wood chips (WCB) applied pots at levels 1%, 3%, 5% (w/w). This pot experiment was cultivated with (6.2 dS m − 1 ). Total available nitrogen significantly relative control treatment (unamended soil) 41%, 34%, 43%, 33%, 24%, 44% adding 3%WCB, 5%WCB, 1%BLB, 3%BLB, 5%BLB, 5%SSB, 1%RSB, 5%RSB treatments, respectively. Results showed significant increases potassium (K) over 48%, 125%, 410%, 738%, 137%, 352%, 632%, 158%, 576%, 849% 1%SSB, 3%SSB, 3%RSB, Cation exchange capacity 26%, 22%, 30%, 58%, 31%, 54%, 28%, 48% 5%RSB, Relative treatment, fresh biomass plant improved 97%, 143%, 76%, 129%, 103%, 146%, 81%, 57%, 121%, 97% highest value biomass, uptake, phosphorus uptake observed 3%SSB applications. According results obtained from our study, recommend 3% which promising approach rehabilitate use sustainable production, attributed effective improvement nutrient productivity, conditions as it enhances tolerance plants salt stress well supply quality. Also, saves costs addition compared dose. also provided useful information about optimal quantities used improve productivity soils.

Язык: Английский

Impact of Acacia-derived biochar to mitigate salinity stress in Zea mays L. by morpho-physiological and biochemical indices

Scientific Reports, Год журнала: 2024, Номер 14(1)

Опубликована: Дек. 30, 2024

Climate change has caused many challenges to soil ecosystems, including salinity. Consequently, strategies are advised mitigate this issue. In context, biochar is acknowledged as a useful addition that can alleviate the detrimental impacts of salt stress on plants. The objective study evaluate effects different levels (Control; T0 0 gl

Язык: Английский