Lelana Ne, Wiyono S, Giyanto, Siregar IZ. 2018. Genetic diversity of Falcataria moluccana and its relationship to the resistance of gall rust disease. Biodiversitas 19: 12-17. The use of cultivars that are resistant to a particular disease is one strategy that could mitigate the incidence of gall rust disease on Falcataria moluccana. Previous studies on the genetic diversity of F. moluccana did not attempt to link that genetic diversity to gall rust disease resistance. This research was carried out using RAPD analysis to determine the preliminary information on the association between different markers and the resistance to gall rust disease. The analysis evaluated a total of 20 pairs of healthy and infected F. moluccana trees that were classified based on their disease severity level. The RAPD primers used in this study were as follows: OPA-05, OPA-08, OPA-10, OPA-13, OPA-18, OPB-07, OPD-13, OPF-02, and OPG-05. The results showed that each RAPD primer produced a varying number of polymorphic bands, ranging from 3 to 12 bands, with a total of 80 polymorphic bands. Despite the number of loci analyzed, however, no specific polymorphic bands were found that could distinguish between healthy and diseased trees. This was supported by principal component analysis, which showed that healthy and diseased populations were not distributed separately. The structure analysis also showed that the healthy and diseased populations were not different.
The role of plantation forests will become more important in the future, along with the increasing demand for wood. However, pest infestation problems may represent significant obstacles to the development of sustainable forest plantations. Bagworms are one of the most important pests in Indonesian plantation forests. Outbreaks of bagworms have occurred in different tree species for wood or non-wood resources. This paper presents the first review of bagworms in Indonesian plantation forests. This review presents the diversity of bagworms, their pest status, and the factors affecting the outbreaks. More than 70 bagworm species were recorded in Indonesia, which is higher than the species richness recorded in neighboring countries. The subfamily Oiketicinae has the highest number of species, followed by Typhoniinae and Taleporiinae. The highest bagworm richness has been recorded in Western Indonesia, except for Papua, where many new species have recently been described. More than 10 species of bagworms have been reported as pests in Indonesian forest trees. Pteroma plagiophleps is currently considered the most important pest in the forestry sector because of the wide range of forest trees used as hosts. Bagworm outbreaks have been reported in forest trees since 1924. The first outbreak occurred only in pines in Sumatra. Currently, outbreaks occur in more host plants and on other islands. Bagworm outbreaks are influenced by multiple factors, such as the biology of the bagworms, their host plants and natural enemies, climate, and silvicultural practices.
Endophytic fungi is a group fungi that can be developed as a biological control agent. of endophytic fungi of Potency for agricultural crop has been discovered widely rare for forest trees The study was conducted to find out the , but still. antagonistic groups agains pathogen Fusarium sp. Fusarium is a casual agent of dumping-off on sengon tree. The highest average of inhibition after seven day incubation shown by Trichoderma harzianum Bio1999, was s was 46.36% followed by isolates of Aspergillus sp.
The objectives of the research were to detect genetic variations on ND-5 region of mtDNA of Benggala and Madura cattles, and to compare the genetic diversity within or between Madura and Benggala cattle. Genetic variations and its effects on phenotype characters have been studied largely in dairy cattles, but not for beef cattles, especially for Indonesian local cattles. PCR-RFLP (polymerase chain reaction-restriction fragment length polymorphism) was used to detect polymorphism on ND-5 region of mitochondrial DNA. Polymorphisms were found on ND-5 mitochondrial DNA fragment using HindIII restriction enzyme. This variation were likely due to lost of HindIII restriction site on ND-5 mithocondrial DNA fragment.
Soil organic matter (SOM) is a crucial component of soil, through which physical, chemical, and biological characteristics interact in a local context. Within the forest category, the conversion of natural forests to monoculture plantations has raised concerns in Indonesia over the loss of soil functions, similar to conversion to agriculture. In natural forests, SOM can accumulate as part of a closed nutrient cycle with minimal nutrient losses; in plantation forestry, SOM decline and recovery can alternate over time, associated with larger nutrient losses. We reviewed existing studies to quantify how shifts from natural forests to short-rotation plantation forests (SRPF) affect SOM dynamics, soil nutrient contents, and soil-borne pathogens that cause disease. The review combines descriptive and quantitative methods (meta-analysis). The results show that conversion affects the soil C balance, soil structure and water balance, soil nutrient balance, and soil-borne diseases. Contributing factors include the reduced diversity of plant and rhizosphere communities, lower annual litter production, more uniform litter quality, and nutrient removal at the harvest cycle. Conversion from natural to plantation forest conditions also increases plant disease incidence by changing biological control mechanisms.
Until now, gall rust disease is a major threat for Falcataria moluccana plantations in Indonesia. One of the environmental factors that can influence the development of plant diseases is the cultivation practice. However, the studies related to the influence of cultivation practice to the F. moluccana gall rust disease are still limited. This study aimed to determine the correlation between cultivation practice to the incidence and severity of F. moluccana gall rust disease. The incidence and severity of F. moluccana gall rust disease were observed from 47 planting sites distributed throughout Java. Its correlation to the cultivation practice was analyzed using chi square analysis followed by coordinate analysis. The results indicated that 6 of 13 variables were significantly correlated with disease incidence. Meanwhile, only 3 of 13 variables were significantly correlated to disease severity. These factors were plant age, use of organic fertilizer, and chemical control. Based on coordinate analysis result, organic fertilizer and chemical control application showed strong association with low level disease severity.
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