Artemisia annua is a plant used to cure malaria diseases. Artemisia plant contains artemisinin as secondary metabolite that used to eliminate parasite that caused malaria, such as Plasmodium falciparum. Artemisia grow...Artemisia annua is a plant used to cure malaria diseases. Artemisia plant contains artemisinin as secondary metabolite that used to eliminate parasite that caused malaria, such as Plasmodium falciparum. Artemisia growth affects production of artemisinin content in plant. Therefore, necessary environment conditions and appropriate organic manure application are needed to support the growth of Artemisia. This research aimed to determine the effect of fertilizer type and proportion in the medium on the Artemisia growth. This research was conducted at greenhouse of Faculty of Agriculture, Universitas Sebelas Maret, Surakarta, in October 2015 to January 2016. This research used a completely randomized design (CRD), consisting of two factors of treatment with three replications. The first factor was type of fertilizer that consists of three types: horse manure fertilizer, compost filter press mud and cow manure fertilizer. The second factor was proportion of fertilizer with media consisted of five levels: fertilizer as media, proportion of fertilizer with media 4:1, 3:2, 2:3 and 1:4. Data were analyzed using analysis of variance and Duncan's multiple range test with level of 5%. It can be concluded that treatment with compost filter press mud provided the highest of plant height, root length, days to flowering, root volume, fresh weight and dry weight of crop.展开更多
Soils used for rice (Oryza sativa L.) cultivation in some areas contain high concentrations of arsenic (As)due to irrigation with groundwater containing As and intensive use of agrochemicals or industrial residues...Soils used for rice (Oryza sativa L.) cultivation in some areas contain high concentrations of arsenic (As)due to irrigation with groundwater containing As and intensive use of agrochemicals or industrial residues containing As. To restrict rice uptake of As in these soils, approaches to reduce As input and bioavailability must be considered. One approach to reduce As input into rice soils or uptake by rice is cultivating rice under aerobic, intermittent flooding, or alternate wetting and drying (AWD) conditions, rather than in submerged soils, or use of irrigation water low in As. For reducing As bioavailability in soil, aerobic or AWD rice culture and application of biochar, sulfur (S), and/or rice polish to soil are promising. Moreover, use of As-hyperaecumulating plant species (e.g., Pteris vittata L.) in rotation or combinations with favourable plant species (e.g., Azolla, Chlorella, or Nannochloropsis species) can also be promoted, in addition to using rice cultivars that are tolerant to As. Though applications of high doses of phosphorus (P), iron (Fe), and silicon (Si) fertilizers have shown promise in many instances, these methods have to be practiced carefully, because negative effects have also been reported, although such incidents are rare. Major factors affecting As speciation and bioavailability in soil are chemical properties such as redox status, pH, and Fe, P, Si, and S concentrations, physical properties such as texture and organic matter, and biological properties such as methylation activity by soil microorganisms. However, as many of these factors interact, long-term examination under field conditions is needed before measures are recommended for and implemented in farmers' fields.展开更多
文摘Artemisia annua is a plant used to cure malaria diseases. Artemisia plant contains artemisinin as secondary metabolite that used to eliminate parasite that caused malaria, such as Plasmodium falciparum. Artemisia growth affects production of artemisinin content in plant. Therefore, necessary environment conditions and appropriate organic manure application are needed to support the growth of Artemisia. This research aimed to determine the effect of fertilizer type and proportion in the medium on the Artemisia growth. This research was conducted at greenhouse of Faculty of Agriculture, Universitas Sebelas Maret, Surakarta, in October 2015 to January 2016. This research used a completely randomized design (CRD), consisting of two factors of treatment with three replications. The first factor was type of fertilizer that consists of three types: horse manure fertilizer, compost filter press mud and cow manure fertilizer. The second factor was proportion of fertilizer with media consisted of five levels: fertilizer as media, proportion of fertilizer with media 4:1, 3:2, 2:3 and 1:4. Data were analyzed using analysis of variance and Duncan's multiple range test with level of 5%. It can be concluded that treatment with compost filter press mud provided the highest of plant height, root length, days to flowering, root volume, fresh weight and dry weight of crop.
基金The Alexander von Humboldt Foundation for funding the first author under the Georg Forster Fellowship (No. ID-1164603)
文摘Soils used for rice (Oryza sativa L.) cultivation in some areas contain high concentrations of arsenic (As)due to irrigation with groundwater containing As and intensive use of agrochemicals or industrial residues containing As. To restrict rice uptake of As in these soils, approaches to reduce As input and bioavailability must be considered. One approach to reduce As input into rice soils or uptake by rice is cultivating rice under aerobic, intermittent flooding, or alternate wetting and drying (AWD) conditions, rather than in submerged soils, or use of irrigation water low in As. For reducing As bioavailability in soil, aerobic or AWD rice culture and application of biochar, sulfur (S), and/or rice polish to soil are promising. Moreover, use of As-hyperaecumulating plant species (e.g., Pteris vittata L.) in rotation or combinations with favourable plant species (e.g., Azolla, Chlorella, or Nannochloropsis species) can also be promoted, in addition to using rice cultivars that are tolerant to As. Though applications of high doses of phosphorus (P), iron (Fe), and silicon (Si) fertilizers have shown promise in many instances, these methods have to be practiced carefully, because negative effects have also been reported, although such incidents are rare. Major factors affecting As speciation and bioavailability in soil are chemical properties such as redox status, pH, and Fe, P, Si, and S concentrations, physical properties such as texture and organic matter, and biological properties such as methylation activity by soil microorganisms. However, as many of these factors interact, long-term examination under field conditions is needed before measures are recommended for and implemented in farmers' fields.
