Team psychological capital is the positive psychological state of a team and has a positive impact on the human resource management and performance management of the team. Team members’ work performance, as a component of team performance, has an important impact on improving team performance. However, there is less cross-level impact analysis between the two. The purpose of this paper is to explore the mechanisms of the cross-level effects of team psychological capital on members’ performance. A paired questionnaire survey was administered to 387 human resource management team members from 86 human resource management teams across China, and SPSS 22.0, AMOS 23.0, and HLM 6.08 software were used to analyze the questionnaire data at the same level and across levels. The test shows that the cross-level positive effect of team psychological capital on team members’ work performance is established, and the cross-level mediating role of team members’ psychological capital and team support between the two is established. It enriches the cross-level research from team to individual, refines and enriches the research on the impact of team psychological capital on individual behavior, and provides new ideas for team management in companies. Therefore, when conducting team management, enterprises can enhance team members’ psychological capital by improving team psychological capital, thereby improving team members’ work performance and team efficiency.
From June 2018 to November 2019, a survey for cyst-forming nematodes was conducted in rice fields in Henan Province of central China. Cysts were recovered from two rice fields (N32° 14′ 048″8 and E115° 4′ 008″) at Huangchuan County, leading to more intensive sampling. A further 25 soil samples were then collected with a valve bag from each of these two locations. Cysts and second-stage juveniles (J2) were recovered from roots and soil following Cobb's gravity sieving method. Live cysts were detected in all soil samples with a mean of 6.7±1.5 cysts per 100 ml of soil. Morphologically, the cysts were spherical to lemon-shaped, light to dark brown in color with subcrystalline layer. The vulval cone was well developed, cone terminus with a few large, peripheral, dark brown bullae lacking finger-like projections, and the ambifenestrae were almost rounded with two semifenestrae; width and length of the semifenestrae were similar. The vulval bridge was narrow, with a medium sized underbridge. Cyst measurements (n = 8) determined a mean body length of 431.1 ± 47.23 (351.0 - 516.0) µm, body width 304.3 ± 47.40 (240.0 - 381.0) µm; body length to width ratio 1.42 ± 0.10 (1.2 to 1.6); fenestrae length 39.4 ± 7.06 (26.0 - 47.0) µm; fenestrae width 36.5 ± 5.96 (25.0 - 43.0) µm; vulva slit length 37.1 ± 3.62 (30.0 - 42.0) µm; and the mean underbridge length 75.0 ± 3.39 (70.0 - 81.0) µm. Morphometric J2 measurements (n = 10) included a body length of 432.3 ± 53.26 (379.0 - 512.0) µm; stylet length 20.8 ± 1.87 (18.0 - 24) µm with rounded knobs; tail length 63.1 ± 7.92 (52.0 - 75.0) µm with a hyaline terminal tail length of 35.8 ± 6.14 (28.0 - 45.0) µm. The key morphometrics of this isolate were intermediate to those of the Japanese isolates (Nobbs et al. 1992.) and Chinese isolates (Ding et al. 2012), and other morphological character values were within the range of those reported for Heterodera elachista (Nobbs et al. 1992; Tanha Maafi et al. 2003). Amplification of DNA from single cysts (n = 7) was conducted using the protocol described by Ding et al. (2012). rDNA - ITS sequences were amplified with the universal primers TW81 and AB28 (Joyce et al. 1994). The PCR product was purified and sequenced. The ITS sequences were submitted to GenBank under accession numbers MT579616. Comparisons showed a sequence identity of more than 99.9% for H. elachista sequence MN720080 from Korea and 99.5% for H. elachista sequences JN864884 and JN202916 from China. Species identification was also confirmed using sequence characterized amplified region (SCAR) methods with H. elachista-specific primers He-F/He-R (Qi, 2012). An expected PCR fragment of approximately 434 bp was obtained, which was consistent with those previously reported for H. elachista. Pathogenicity was confirmed by infection and reproduction on rice (Oryza sativa cv. ‘Nipponbare’). Seeds were sown into three tubes containing 150 ml of a sterile soil mixture (loamy soil: sand = 1:1), each with 5 cysts (mean of 185 eggs/cyst) and cultivated in an artificial climate box at 25/30°C, under a 12-h dark/12-h light cycle. Three other tubes without cysts were set as control. Two weeks after sowing, stunting and reduction of leaf length were observed and third- and fourth-stage juveniles were observed in roots stained with acid fuchsin. On average, 142 cysts per 150 ml soil were recovered at 5 weeks after sowing. The newly formed cysts corresponded morphologically and molecularly to the cysts from the original soil samples. The globally recognized and economically important rice-damaging cyst nematodes include H. oryzae, H. oryzicola, H. elachista, H. sacchari and H. graminophila (Zhuo et al. 2014). Ohshima (1974) first reported H. elachista, which was originally recorded as H. oryzae in Japan by Luc and Brizuela (1961). H. elachista was then detected from a rice field at Mazandaran Province in Iran (Tanha Maafi et al., 2003), and in upland rice fields in Hunan (Ding et al., 2012) and Guangxi, China (Zhuo et al. 2014). To the best of our knowledge, this is the first report of H. elachista as a pathogen on rice in Henan Province, in central China. According to our field observations, H. elachista was much more serious in direct-seeded rice field than in the transplanted rice fields. H. elachista was also reported attacking corn (Xiao et al., 2019). Henan is the most important corn-producing province in China, thus H. elachista is a potential threat to corn production in Henan. Our findings will be very beneficial for H. elachista management and further research on direct-seeded rice and corn in Henan Province, central China.
Aphelenchoides besseyi is one of the important plant-parasitic nematodes on rice, reducing approximate 10-20% of the rice yield annually (Jones et al. 2013). Foxtail millet (Setaria italica) has been a major cereal crop in Northern China, especially in the semi-arid areas of this region, for thousands of years. In August of 2019 and 2020, a survey of nematodes on autumn grain crops was performed each year. One foxtail millet field (N34° 58′ 027″ and E113° 39′ 059″) in Yuanyang County of Henan Province caught our attention. Some upper leaves showed chlorosis without or with necrotic tips, and flag leaves presented crinkling and distortion, stalks were colored, earheads were vertical, glumes were brown or light black and open, and grains became thin. A total of ten samples were collected, and the nematodes were isolated from the spike pieces by shallow plate method and counted under a stereomicroscope. The average number of nematodes per earhead of foxtail millet counted up to 1738.75 ± 107.72. Morphologically, females were slender with a short stylet, an oval metacorpus with a distinct valve, a labial region slightly wider than the first body annulus and a conoid tail with a terminus bearing a star-shaped mucro with four pointed processes. The females were characterized as follows (mean ± SD; n=20): body length (L) = 668.92 ± 12.73 µm (647.38 to 689.70 µm); maximum body width (W) = 14.35 ± 1.11 µm (12.12 to 16.88 µm); L/W = 46.83 ± 2.94 (40.44 to 50.03); tail length = 38.93 ± 3.48 µm (33.41 to 45.92 µm); L/tail length = 17.31 ± 1.44 (14.47 to 19.62); and stylet length (ST) = 11.57 ± 0.57 µm (10.77 to 12.34 µm). The males had three pairs of ventrosubmedian papillae with the first one adanal, spicula curved with a slight basal process, terminus bearing four mucrones arranged variably, and the whole worm was in ‘J’ shape. The males could be described as follows (mean ± SD, n = 20): L = 606.66 ± 10.70 µm (586.49 to 626.37 µm); W = 13.95 ± 0.60 µm (12.71 to 14.94 µm); L/W = 43.55 ± 1.69 (40.73 to 46.43); tail length = 35.54 ± 1.93 µm (31.41 to 38.18 µm); L/tail length = 17.07 ± 0.79 (16.05 to 18.67); ST = 11.53 ± 0.56 µm (1061 to 12.76 µm). All the key morphometrics were consistent with those of A. besseyi reported from Brazil (Favoreto et al. 2018) and China (Lin et al. 2004; Ou et al. 2014). The amplifications of rDNA internal transcribed spacer (ITS) fragments generated a PCR fragment of 830 bp from a single nematode, using the primers set TW81 (5′-GTTTCCGTAGGTGAACCTGC-3′) and AB28 (5′-ATATGCTTAAGTTCAGCGGGT-3′) (Joyce et al. 1994). Five independent PCR experiments were conducted, and all the PCR products were purified and sequenced. Nucleotide sequence of ITS-rDNA was deposited in GenBank with Accession Number OK090549.1. The obtained ITS region sequence was more than 99% identical to those of A. besseyi reported from China (MW216945.1) and India (JF826518.1, JF826519.1 and JF826517.1). These ITS sequence results further supported that the isolated nematodes were A. besseyi. Subsequently, the species-specific primers of A. besseyi (BSF, 5′-TCGATGAAGAACGCAGTGAATT-3′ and BSR, 5′-AGATCAAAAGCCAATCGAATCAT-3′) were used for confirmation by PCR (Cui et al. 2010). An expected PCR fragment of 312 bp was obtained, which was consistent with those of A. besseyi reported previously. The pathogenicity of identified A. besseyi was confirmed by infection of foxtail millet (Setaria italica cv. ‘Yugu33’). Foxtail millet budding seeds were sown in the pots contained 150 mL of sterile soil mixture. In two weeks, 10 seedlings were inoculated with 100 A. besseyi each, and 4 plants were non-inoculated as the control. The foxtail millet seedlings were grown in a plant-growth chamber at 25/30°C under 12 h dark/12 h light. On the average, 73.3 and 138.2 of A. besseyi were isolated from each plant at 15 and 40 days post inoculation, respectively. Both the morphological and molecular characteristics were identical with those nematodes obtained from the original samples. All the upper leaves of the inoculated plants showed chlorosis and necrosis, symptoms that were similar to those observed in the field, and neither symptom developed on the non-inoculated control plants, nor were nematodes re-isolated from the control plants. To the best of our knowledge, this is the first record of A. besseyi on foxtail millet in Henan Province of North China. Henan is one of the most important grain-producing areas in China, and A. besseyi is an important domestic quarantine nematode, which may become a severe threat to cereal production in Henan Province. Our findings will be very beneficial for A. besseyi management and further research on foxtail millet in Henan Province of North China.
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