Effect of Manure Compost on Distribution of Cu and Zn in Rhizosphere Soil and Heavy Metal Accumulation by Brassica juncea

“…This increase in plant growth attributes by the application of compost may be due to the improved soil structure due to addition of organic matter, improved basic nutrients, that is, N, P, and K and trace nutrients elements, that is, Fe, Zn, and Cu to the soil (Wu et al, 2017; Niamat et al 2019). Lowering of Cr toxicity by retention of Cr on compost surfaces could be another reason of improved plant growth in present study (Beesley et al, 2014; Huang et al, 2020). Heavy metals mobility and bioavailability in soil relates to metal specification, type of soil, and amendment characteristics (pH, EC, CEC, and humic substances) (Olaniran et al, 2013; Sakizadeha & Ghorbanib, 2017).…”

“…Addition of organic amendments, for example, animal manure, compost, biochar, etc. has the great potential to improve fertility status in degraded soils by improving soil aggregation and aggregate stability and thus play very important role in the amelioration of soils polluted with heavy metal (Duwiejuah et al, 2017; Huang et al, 2020; Lian et al, 2019).…”

“…Heavy metals mobility and bioavailability in soil relates to metal specification, type of soil, and amendment characteristics (pH, EC, CEC, and humic substances) (Olaniran et al, 2013; Sakizadeha & Ghorbanib, 2017). Presence of humic acid and fulvic acid in compost might have caused binding of heavy metals, which ultimately have enhanced the plant growth (Agegnehu et al, 2016; Huang et al, 2020). Similarly, amendment of tannery waste polluted soils (K and S) with biochar significantly improved the plant growth parameters.…”

“…Application of compost significantly decreased the concentration of Cr (III and VI) in root and shoot parts of both maize cultivars. Mineral components in compost might have precipitated Cr or formed the complexes with functional groups (Huang et al, 2020; Wu et al, 2017). Similarly, biochar lowered the Cr concentration in both upper and lower plant parts that might be associated to its high surface area, having potential to keep the cation in soil far greater than the organic matter (Ahmad et al, 2018; Ding et al, 2016; Shakya et al, 2019).…”

“…In water relation, plant water status is assessed by RWC in normal and stress environment and it also affected the maize cultivar raised in tannery polluted soils (K and S). Chromium ions might have inhibited the activities of many enzymes and disturbed the osmotic adjustment in plant cells by reduction of compatible solutes like amino acids, proline, soluble sugars, etc., which eventually have affected the cell plasticity and leakage of membrane resulting in loss of turgor (Huang et al, 2020; Rucińska‐Sobkowiak, 2016). In guard cells, alteration in turgor pressure affects activity of stomata (Bertolino et al, 2019).…”

Performance of Zea mays L. cultivars in tannery polluted soils: Management of chromium phytotoxicity through the application of biochar and compost

“…This increase in plant growth attributes by the application of compost may be due to the improved soil structure due to addition of organic matter, improved basic nutrients, that is, N, P, and K and trace nutrients elements, that is, Fe, Zn, and Cu to the soil (Wu et al, 2017; Niamat et al 2019). Lowering of Cr toxicity by retention of Cr on compost surfaces could be another reason of improved plant growth in present study (Beesley et al, 2014; Huang et al, 2020). Heavy metals mobility and bioavailability in soil relates to metal specification, type of soil, and amendment characteristics (pH, EC, CEC, and humic substances) (Olaniran et al, 2013; Sakizadeha & Ghorbanib, 2017).…”

“…Addition of organic amendments, for example, animal manure, compost, biochar, etc. has the great potential to improve fertility status in degraded soils by improving soil aggregation and aggregate stability and thus play very important role in the amelioration of soils polluted with heavy metal (Duwiejuah et al, 2017; Huang et al, 2020; Lian et al, 2019).…”

“…Heavy metals mobility and bioavailability in soil relates to metal specification, type of soil, and amendment characteristics (pH, EC, CEC, and humic substances) (Olaniran et al, 2013; Sakizadeha & Ghorbanib, 2017). Presence of humic acid and fulvic acid in compost might have caused binding of heavy metals, which ultimately have enhanced the plant growth (Agegnehu et al, 2016; Huang et al, 2020). Similarly, amendment of tannery waste polluted soils (K and S) with biochar significantly improved the plant growth parameters.…”

“…Application of compost significantly decreased the concentration of Cr (III and VI) in root and shoot parts of both maize cultivars. Mineral components in compost might have precipitated Cr or formed the complexes with functional groups (Huang et al, 2020; Wu et al, 2017). Similarly, biochar lowered the Cr concentration in both upper and lower plant parts that might be associated to its high surface area, having potential to keep the cation in soil far greater than the organic matter (Ahmad et al, 2018; Ding et al, 2016; Shakya et al, 2019).…”

“…In water relation, plant water status is assessed by RWC in normal and stress environment and it also affected the maize cultivar raised in tannery polluted soils (K and S). Chromium ions might have inhibited the activities of many enzymes and disturbed the osmotic adjustment in plant cells by reduction of compatible solutes like amino acids, proline, soluble sugars, etc., which eventually have affected the cell plasticity and leakage of membrane resulting in loss of turgor (Huang et al, 2020; Rucińska‐Sobkowiak, 2016). In guard cells, alteration in turgor pressure affects activity of stomata (Bertolino et al, 2019).…”

Performance of Zea mays L. cultivars in tannery polluted soils: Management of chromium phytotoxicity through the application of biochar and compost

Research trend analysis of composting based on Web of Science database

Effect of manure and biochar on the aluminum, copper, and iron bioaccumulation by Salicornia species in soil