Operators' mental strain in operating the high proficient forestry machine     

Koki Inoue 《Journal of Forest Research》1996,1(4):195-197

This study was designed to assess the mental aspect of the work load in operators of high proficient forestry machines. Workers engaged in the operation of harvesters, processors, tower-yarders, forwarders and an excavator were included in this study. Mental fatigue and stress generated by operating these five types of forestry machine were assessed. The stress intensity as a measure of mental strain was high in all types of work surveyed. In some types of work demanding a complicated operation of machine, complaints of both mental and physical strain were frequent. In the type of work such as undertaken on a contract basis, operators worked with a feeling of mental pressure to complete the work by the deadline in the contract. The results suggest that the work load needs to be assessed from the physical and mental aspects combined. The titles are tentative translation from Japanese title by the auther of this paper.  相似文献   

Biological activity of extracts fromCupressus lusitanica cell culture     

Takashi Yamaguchi  Koki Fujita  Kokki Sakai 《Journal of Wood Science》1999,45(2):170-173

Ethyl acetate extracts ofCupressus lusitanica suspension cell cultures were examined for their biological activities (viz., tyrosinase inhibitory, antioxidant, and antimicrobial activities). The extract from elicitor-treated cells showed all of the biological activities, whereas the extract from cultures without elicitor was not bioactive to a discernible extent. The biological activities shown by the cell culture extracts were almost solely accounted for by-thuj aplicin contained in the extracts. These results suggest that the ethyl acetate extract ofC. lusitanica cells treated with the elicitor is a valuable bioactive source without isolation or purification of-thujaplicin.  相似文献   

Potential nitrogen immobilization as influenced by available carbon in Japanese arable and forest soils     

Kozue Sawada  Shinya Funakawa  Koki Toyota  Takashi Kosaki 《Soil Science and Plant Nutrition》2013,59(6):917-926

Abstract

Iron oxide is the most important electron acceptor in paddy fields. We aimed to suppress the methane emission from paddy fields over the long term by single application of iron materials. A revolving furnace slag (RFS; 245 g Fe kg^-1) and a spent disposable portable body warmer (PBW; 550 g Fe kg_-1) were used as iron materials. Samples of a soil with a low iron level (18.5 g Fe kg^-1), hearafter referred to as “a low-iron soil” and of a soil with a high iron level (28.5 g Fe kg^-1), hearafter referred to as “an iron-rich soil,” were put into 3 L pots. At the beginning of the experiment, RFS was applied to the pots at the rate of 20 and 40 t ha^-1, while PBW was applied at the rate of 10 t ha^-1 only, and in the control both were not applied. Methane and nitrous oxide emissions from the potted soils with rice plants were measured by the closed chamber method in 2001 and 2002. When RFS was applied at the rates of 20 and 40 t ha^-1 to the low-iron soil, the total methane emission during the cultivation period significantly decreased by 25–50% without a loss of grain yield. Applied iron materials clearly acted as electron acceptors, based on the increase in the amount of ferrous iron in soil. However, the suppressive effect was not evident in the iron-rich soil treated with RFS or PBW. On the other hand, nitrous oxide emission increased by 30–95%. As a whole, when the total methane and nitrous oxide emissions in the low-iron soil were converted to total greenhouse gas emissions expressed as CO₂- C equivalents in line with the global warming potential, the total greenhouse gas emissions decreased by about 50% due to the application of RFS.  相似文献   

Histopathological changes of the spinal cord and motor neuron dynamics in SOD1 Tg mice     

Masaharu Tanaka  Kengo Homma  Aki Soejima 《Journal of toxicologic pathology》2022,35(1):129

We analyzed the histopathological changes and the number of motor neurons (MNs) in the lumbar spinal cord of Cu/Zn superoxide dismutase transgenic (SOD1^G93ATg) mice, which are frequently used as a disease model of amyotrophic lateral sclerosis (ALS). In SOD1^G93ATg mice, hyaline inclusions and foamy vacuoles in the neuronal cell body were observed at 7 weeks of age before neurologic symptoms, and large vacuoles, spheroid formation, and nerve cell aggregation became prominent after 13 weeks of age. The number of healthy MNs was 28.7 to 37.1 cells/animal in wild-type mice and 9.3 to 13.6 cells/animal in transgenic (Tg) mice. Furthermore, the number of MNs, including degenerative neurons, in Tg mice was 27.3–36.1 cells/animal at 18 weeks of age and 17.8–19.6 cells/animal at 21 weeks of age. The present results provide useful information for the development of drugs in ALS treatment.  相似文献   

Genotypic variation in salinity tolerance and its association with nodulation and nitrogen uptake in soybean     

Yong Song  Takayuki Nakajima  Donghe Xu  Koki Homma 《Plant Production Science》2017,20(4):490-498

Saline soils hamper various physiological functions in soybean [Glycine max (L.) Merr.]. One example is the reduction in nitrogen (N) uptake capacity, a major dysfunction that limits soybean growth and yield under saline conditions. Previous studies have revealed that tolerance to salinity varies with cultivar; however, the cultivars used in these studies were selected solely based on agro-morphological traits. In this study, we examined genotypic variation in salinity tolerance among 85 soybean genotypes which were selected based on an assessment of both single nucleotide polymorphisms (SNP) markers and agro-morphological traits. Additionally, we examined whether salt tolerance is associated with nodulation and N uptake. We used a subset of the world soybean mini-core collection (80 cultivars) and an additional five cultivars/genetic lines (NILs72-T, NILs72-S, Enrei, En-b0-1, and En1282). All plants were grown in pots and treated with saline (final concentration of 150 mM NaCl) during the vegetative growth stage. To evaluate salinity tolerance, we used the ratio of saline-treated (S) to control (C) plant total dry weight [DW (S/C)]. The ratio differed markedly according to genotype. Furthermore, salinity-tolerant genotypes exhibited superior nodulation, leaf greenness, and N uptake under saline conditions. These results indicate that there is a marked genotypic variation in salinity tolerance, and that the tolerant genotypes exhibit greater nodulation and N uptake, although further studies are needed to clarify whether the superior nodulation and N uptake of salinity-tolerant genotypes are responsible for the observed tolerance.  相似文献   

Qualitative and quantitative changes of F<Subscript>o</Subscript>F<Subscript>1</Subscript>-ATPase in Japanese flounder and red sea bream associated with rearing temperatures     

Shiro Itoi  Koki Ikeguchi  Masaki Kaneniwa  Ryuji Kuwahara  Ichiro Ohara  Noriko Ishida  Michiaki Yamashita  Shugo Watabe 《Fisheries Science》2007,73(2):429-439

ABSTRACT:   Fast skeletal muscles of Japanese flounder Paralichthys olivaceus and red sea bream Pagrus major were examined for quantitative and qualitative changes of mitochondrial ATP synthase (F_oF₁-ATPase) in association with rearing temperatures. The specific activities of F_oF₁-ATPase from Japanese flounder reared at 10°C, 15°C and 25°C for 4 weeks were determined to be 81 ± 11, 74 ± 13 and 83 ± 11 nmol/min·mg mitochondrial protein, respectively. The corresponding activity from red sea bream reared at 8°C for 5 weeks was determined to be 65 ± 9 nmol/min·mg mitochondrial protein, which was higher than 33 ± 9 nmol/min·mg mitochondrial protein in fish reared at 23°C. The contents of α- and β-F₁-ATPase in total mitochondrial proteins were not significantly different between fish reared at different temperatures for the two fish species. However, the contents of β-F₁-ATPase in the total fast skeletal muscle extracts, prepared from Japanese flounder reared at 10°C, were 2.1- and 2.9-fold higher than those for fish reared at 15°C and 25°C, respectively. The corresponding content from red seabream reared at 8°C was 2.2-fold higher than that for fish reared at 23°C. Therefore, the changes in F_oF₁-ATPase depending on rearing temperatures were species-specific.  相似文献   

Screening of fungal strains responsible for strong fungistasis against Fusarium oxysporum f. sp. radicis-lycopersici in a coffee compost-amended soil     

Yasuhiro HAMANAKA  Koki TOYOTA  Kyoko HAYASHI-IKEDA 《Soil Science and Plant Nutrition》2006,52(1):133-134

(pp. 817–824)
Disease incidence of crown and root rot of tomato, caused by Fusarium oxysporum f. sp. radicis-lycopersici J3 (FOL J3) was significantly lower in a soil (CC-soil) amended with coffee compost and chemical fertilizers (CF) than in a soil (CF-soil) amended with only CF. Germination of microconidia of various plant-pathogenic Fusarium oxysporum strains was consistently lower in the CC-soil than in the CF-soil, suggesting that the CC-soil possessed a higher degree of fungistasis. When the CC-soil was supplemented with rifampicin and kanamycin, germination of FOL J3 didn't increase, suggesting that the higher degree of fungistasis in the CC-soil may not be of bacterial origin. The substrate-induced respiration inhibition method demonstrated that the CC-soil possessed higher microbial activity and was dominated by fungi. PCR-DGGE analysis showed that the microbial community structure of the two soils was different. Fungal mycelia were isolated from the soils and the effect of the isolates on soil fungistasis was examined. Three isolates, all belonging to F. oxysporum out of 49 showed strongest suppressive effect on the germination of FOL J3 and two isolates suppressed Fusarium crown and root rot disease when they were inoculated into autoclaved CC-soil. These results might suggest that the isolates close to F. oxysporum were responsible for highly fungistatic capability in the CC-soil and were a possible source for disease suppression.  相似文献   

Repeated applications of farmyard manure enhance resistance and resilience of soil biological functions against soil disinfection   总被引：1，自引：0，他引：1  

Satoko Wada  Koki Toyota 《Biology and Fertility of Soils》2007,43(3):349-356

The effect of repeated application of farmyard manure (FYM) on resistance and resilience of some of soil biological functions was compared between two soils [chemically fertilized soil (CF soil) and chemically and organically amended soil (CF+FYM-soil)]. The impact of chloropicrin and metam sodium disinfection on organic matter (glucose and chitin) decomposition activity and number of ammonia oxidizing bacteria in the soils was measured periodically from just after disinfection to evaluate stability of soil biological functions to soil disinfection. Glucose and chitin decomposition activity and number of ammonia oxidizing bacteria was suppressed by soil disinfection more seriously in the CF soil than in the CF+FYM soil. The decomposition rates recovered in the disinfected CF+FYM soil 2 to 12 weeks after disinfection, but not in the CF soil during 12 weeks incubation. These results demonstrated that soil resistance and resilience of the selected biological functions may be higher in the CF+ FYM soil than in the CF soil. The ratios of fungal and bacterial contribution to glucose decomposition activity were evaluated by the substrate-induced respiration method. Chloropicrin and metam sodium disinfection decreased fungal contribution throughout the incubation period (12 weeks) in the CF soil. A similar tendency was observed in the CF+FYM soil, but the fungal contribution tended to recover more rapidly in the CF+FYM soil than in the CF soil. Repeated applications of FYM may be an effective way to enhance soil functional stability.  相似文献   

Operators' physical strain in operating the high proficient forestry machines     

Koki Inoue  Hiroshi Kobayashi 《Journal of Forest Research》1996,1(3):111-115

This study was undertaken to assess physical strain during work in forestry workers operating high quality forestry machines. The types of machine used in this study consisted of harvesters, processors, tower yarders, forwarders and excavators. Characterization of labor load in operation of these five types of machine and fatigue sensation in operators was attempted mainly from the physical burden inflicted on them. The results showed that though the heart rate, an indicator of physical strain, stayed low in all types of work, assessment of labor stress on the basis of heart rate was difficult and that local pain, a manifestation of physical strain, developed in operators. The results suggested the necessity of improving labor conditions in operators of these machines.  相似文献   

Community structure of the microbiota associated with nodal roots of rice plants along with the growth stages: estimation by PCR-RFLP analysis   总被引：1，自引：0，他引：1  

Makoto Ikenaga  Yoshitetsu Muraoka  Koki Toyota  Makoto Kimura 《Biology and Fertility of Soils》2002,36(6):397-404

Community structure of the microbiota in rice roots that developed from different nodes and at different growth stages were compared by using PCR (polymerase chain reaction)-RFLP (restriction fragment length polymorphism) analysis of 16S rDNA. This was the first study to have applied a molecular microbial technique for elucidating the rhizospheric microbial succession of rice roots. Rice plants were grown in submerged soil pots, and nodal roots were collected 5 times during the growing period of rice plants. The RFLP fragments digested by four restriction enzymes (Hinf I, Hae III, Sau3A I, and EcoR I) tended to increase along with the growth stage. A marked increase in the RFLP fragments coincided with the development of reduction in the rhizosphere soil. RFLP fragments that were associated with every nodal root irrespective to the sampling date and those specific to the early and late growth stages were identified. Systematic changes in RFLP patterns from higher (younger) nodal roots to lower (older) nodal roots were also observed at each sampling date, which indicated the succession of the microbial community from higher to lower nodal roots. Cluster analysis divided the RFLP patterns of the microbial community associated with nodal roots into four clusters depending on the growth stages of rice plants. The cluster of the early growth stage was further divided into two subclusters of higher and lower nodal roots. The specific RFLP fragments that contributed to the seasonal variation of the microbial community associated with nodal roots as well as those that characterized the aging of nodal roots were clarified by principal component analysis.  相似文献