West Sumatera is one of the largest mangosteen production centers in Indonesia.After the 2019 harvest season,there were variations in fruit production and quality which indicated symptoms of zinc(Zn)deficiency.This stu...West Sumatera is one of the largest mangosteen production centers in Indonesia.After the 2019 harvest season,there were variations in fruit production and quality which indicated symptoms of zinc(Zn)deficiency.This study evaluates the status of Zn for increasing the production and quality of mangosteen fruit Ratu Kamang cv.The study was conducting using the observation method in Lima Puluh Kota,West Sumatera from January to December 2020.This study used ten mangosteen trees aged 23 years in three locations selected purposively.Parameters observed included soil properties,leaf nutrients,number of fruits;fruit,rind,aril and seed weights,percentage of fruit scars(FS)and percentage of fruit contaminated with yellow sap(YSC).The relationship between Zn concentration in leaves and fruit production and quality was analyzed using Pearson’s correlation and regression models.The results showed that Zn played a role in increasing the production and quality of man-gosteen fruit at certain concentration ranges in the leaves.Zinc concentrations of 23.45–30.00 mg/kg play a role in increasing production,while Zn concentrations of 26.29–30.29 mg/kg play a role in increasing quality.The lowest incidence of FS and YSC was found in trees with Zn concentration in the leaves between 30.00–32.00 mg/kg.Zinc concentration in the leaves of 30.00 mg/kg was the critical concentration in increasing the production and quality of mangosteen fruit under local cultivation conditions.Zinc has an antagonistic relationship to iron(Fe)and cop-per(Cu)in leaf tissue.展开更多
The global obligation for food requires soil and plant management practices that provide valuable effects on the physical, chemical, and organic properties of soils. The use of animal manure, in agricultural productio...The global obligation for food requires soil and plant management practices that provide valuable effects on the physical, chemical, and organic properties of soils. The use of animal manure, in agricultural production systems as alternative to synthetic elemental fertilizers has potential application to improve crop yield and fruit quality. A randomized complete block design (RCBD) was established to investigate the impact of nine soil treatments on yield and quality of bell pepper, Capsicum annuum and eggplant, Solanum melongena. The nine soil treatments included: chitin CH, biochar Bio, sewage sludge SS, chicken manure CM, SS mixed with biochar (SSBio), SS mixed with CH (SSCH), CM mixed with biochar (CMBio), CM mixed with CH (CMCH), and unamended (UN) native soil used as control treatment. At maturity, fruits from each treatment, were counted, weighed, and classified according to the USDA grades to U.S. Fancy, U.S. No.1, U.S. No.2, and culls. Overall number and weight of green pepper fruits collected from plants grown in SSCH were significantly greater (26.2 and 3.14 kg 5 plants<sup>-1</sup>) compared to fruits of plants grown in unamended control treatment (17.1 and 1.98 kg 5 Plants<sup>-1</sup>, respectively). Whereas CH alone was superior in increasing the number and weight of eggplant fruits compared to the control treatment. Average weight and number of eggplant fruits of plants grown in soil amended with chitin (4.46 kg and 11.5, respectively) were significantly (P ≤ 0.05) greater than weight and number of fruits obtained from plants grown in other soil treatments. Results also revealed a positive correlation coefficient (r) and high probability of significance (P) between number of fruits and weight of fruits among the nine soil treatments. Utilization of animal manures in agricultural systems is an inexpensive means for limited-resource farmers looking for improvements in crop yield and quality at affordable costs.展开更多
基金The research funded by Indonesian Agency for Agricultural Research and Development through the Indonesian Tropical Fruit Research Institute,West Sumatera Indonesia for this work through a research project entitled Technology and Innovation for Increasing Production of Horticultural Plants,grant number SP DIPA-018.09.2.412050/2020.
文摘West Sumatera is one of the largest mangosteen production centers in Indonesia.After the 2019 harvest season,there were variations in fruit production and quality which indicated symptoms of zinc(Zn)deficiency.This study evaluates the status of Zn for increasing the production and quality of mangosteen fruit Ratu Kamang cv.The study was conducting using the observation method in Lima Puluh Kota,West Sumatera from January to December 2020.This study used ten mangosteen trees aged 23 years in three locations selected purposively.Parameters observed included soil properties,leaf nutrients,number of fruits;fruit,rind,aril and seed weights,percentage of fruit scars(FS)and percentage of fruit contaminated with yellow sap(YSC).The relationship between Zn concentration in leaves and fruit production and quality was analyzed using Pearson’s correlation and regression models.The results showed that Zn played a role in increasing the production and quality of man-gosteen fruit at certain concentration ranges in the leaves.Zinc concentrations of 23.45–30.00 mg/kg play a role in increasing production,while Zn concentrations of 26.29–30.29 mg/kg play a role in increasing quality.The lowest incidence of FS and YSC was found in trees with Zn concentration in the leaves between 30.00–32.00 mg/kg.Zinc concentration in the leaves of 30.00 mg/kg was the critical concentration in increasing the production and quality of mangosteen fruit under local cultivation conditions.Zinc has an antagonistic relationship to iron(Fe)and cop-per(Cu)in leaf tissue.
文摘The global obligation for food requires soil and plant management practices that provide valuable effects on the physical, chemical, and organic properties of soils. The use of animal manure, in agricultural production systems as alternative to synthetic elemental fertilizers has potential application to improve crop yield and fruit quality. A randomized complete block design (RCBD) was established to investigate the impact of nine soil treatments on yield and quality of bell pepper, Capsicum annuum and eggplant, Solanum melongena. The nine soil treatments included: chitin CH, biochar Bio, sewage sludge SS, chicken manure CM, SS mixed with biochar (SSBio), SS mixed with CH (SSCH), CM mixed with biochar (CMBio), CM mixed with CH (CMCH), and unamended (UN) native soil used as control treatment. At maturity, fruits from each treatment, were counted, weighed, and classified according to the USDA grades to U.S. Fancy, U.S. No.1, U.S. No.2, and culls. Overall number and weight of green pepper fruits collected from plants grown in SSCH were significantly greater (26.2 and 3.14 kg 5 plants<sup>-1</sup>) compared to fruits of plants grown in unamended control treatment (17.1 and 1.98 kg 5 Plants<sup>-1</sup>, respectively). Whereas CH alone was superior in increasing the number and weight of eggplant fruits compared to the control treatment. Average weight and number of eggplant fruits of plants grown in soil amended with chitin (4.46 kg and 11.5, respectively) were significantly (P ≤ 0.05) greater than weight and number of fruits obtained from plants grown in other soil treatments. Results also revealed a positive correlation coefficient (r) and high probability of significance (P) between number of fruits and weight of fruits among the nine soil treatments. Utilization of animal manures in agricultural systems is an inexpensive means for limited-resource farmers looking for improvements in crop yield and quality at affordable costs.
