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991.
经营措施对青檀人工林生物量及檀皮产量的影响 总被引:10,自引:1,他引:9
调查了青檀人工林不同经营措施对林分地上部分生物生产力及檀皮产量的影响.结果表明(1)在密度及墩龄相同条件下,单位面积檀皮产量与年龄成正比,出皮率与年龄成反比;(2)单位面积檀皮产量年增长以第3年为最高,分别是第2年和第4年年增长量的1.58倍和4.12倍;(3)在密度、留萌数及萌发年龄相同条件下,单位面积檀皮产量以条墩年龄12年为最高,分别是6年生和9年生的3.32倍和1.11倍;(4)四种造林密度类型(2500、3333、4200和5350墩/hm2)中,檀皮产量大小顺序为4200>3333>5350>2500.4200墩/hm2(株行距1.4m×1.7m)的林分檀皮产量是2500墩/hm2(株行距2m×2m)林分植皮产量的1.68倍;(5)在密度、墩龄相同条件下,每墩留萌数为10时,单位面积植皮产量最高.从收获经济生物量(檀皮)的角度考虑,青檀人工林密度应在3333~4200墩/hm2之间,轮伐期为3年;在条墩年龄为9年以上的人工林中,留萌数以10条为好. 相似文献
992.
利用重组Pichia pastoris生产腺苷甲硫氨酸 总被引:33,自引:0,他引:33
为改造甲醇利用型酵母Pichia pastoris来生产腺苷甲硫氨酸(SAM,S-adenosyl-L-methionine),我们将一个带有SAM合成酶基因的胞内表达质粒转化入Pichia pastoris菌株GS115,经过G418抗性筛选得到一株有两个基因拷贝的转化子。该菌在含有甲醇和甲硫氨酸的培养基中生长5d后,其细胞内的SAM的产量比原始菌株提高了30余倍。对该菌生产SAM的培养基中的碳源与氮源进行了优化,结果显示碳源的控制对该菌SAM产量的影响很大。在试管水平,该菌在含有0.75%的L-methionine并且碳源和有机氮源经过一定程度优化的培养基中,生长6d后SAM产量达到1.58g/L。 相似文献
993.
1—MCP处理对油桃果实硬度、呼吸及乙烯合成的影响 总被引:12,自引:4,他引:8
研究了1-MCP处理对“秦光”油桃果实硬度,呼吸,乙烯,EFE活性的影响。结果表明:1-MCP处理可抑制油桃果实乙烯的合成,显著地降低了乙烯峰值,仅为对照的一半,推迟了乙烯峰和呼吸峰的出现,但提高了呼吸峰值,延缓了果实硬度的下降,介对EFE活性无明显影响。 相似文献
994.
To enhance the conditions for producing shellfish in coastal waters, the possibility of employing artificial upwelling of nutrients is explored. The effectiveness of a submerged discharge of fresh water is studied by means of a numerical buoyant plume model, BJET, and laboratory simulations. An optimisation of the entrainment of deeper, nutrient-rich water to the proper intrusion depth is demonstrated. The studies show that a downward directed jet of fresh water below the euphotic zone can lift significant amounts of nutrients to the primary production near the surface. The outlet must be large enough to lift the deeper water through the pycnocline to the desired depth of primary production. The results are applied to a possible discharge arrangement in the Samnangerfjord, to the east of Bergen, Norway, using field data from 1999. With a discharge of up to 8 m3/s of fresh water at 35 m depth, the entrainment of deeper water into the buoyant plume, up to the 15 m depth, is 12 to 13 times as much. The chosen arrangement could give an expected vertical transport to the euphotic zone of 467 kg d–1 N, 46 kg d–1 P and 555 kg d–1 Si during the summer growth period. This includes periods of coastal downwelling with greatly reduced values of nutrients, but not periods of strong, deep stratification with deeper intrusions. Further optimisation is possible using active controls of the discharge system. 相似文献
995.
A field experiment was carried out in October 1998 during active upwelling in a coastal area off the Mejillones Peninsula (23° S). Zooplankton was sampled at day and night, during two subsequent days at 4 stations inside and outside of the upwelling plume. Three depth strata were sampled: 0–20 m, 20–80 m and 80–200 m. Oceanographic data were obtained in a grid of 23 stations using a CTDO, a fluorometer and a Doppler current meter. Calanus chilensis was mostly represented by late stages, i.e. copepodid C5 and adult males and females. There were no day/night effects on vertical distribution, and abundance was significantly higher inside the upwelling plume in the upper 20-m layer at nearly 14 ind. m–3, compared to ca. 5 ind. m–3 outside the upwelling plume. Temperature at 10 m depth and biomass, estimated from stage numbers and their mean dry weights, were used to estimate growth and daily production of Calanus at temperature-dependent rates. The potential loss of biomass from the upwelling center because of advection in the upwelling plume was estimated from current data in the Ekman layer and biomass density. The mean cross-shelf component of the current was estimated at 10.4 km d–1 within the upwelling plume. This yielded a loss of biomass of 9.7 mg dry weight m–2 . Production, estimated by a temperature-dependent approach, ranged between 44 and 35 mg dry weight m–2 d–1, at mean temperatures of 14.6 °C and 15.8 °C inside and outside of the upwelling plume respectively. Within the plume, as much as 22% of daily production may be advected offshore. However, a higher concentration of biomass in the upwelling plume allowed a greater production compared to surrounding areas. A mass balance approach suggests that advective losses may not have a major impact on the C. chilensis population, because of very high daily production at temperature-dependent rates. 相似文献
996.
Evaluating minirhizotron estimates of fine root longevity and production in the forest floor of a temperate broadleaf forest 总被引:11,自引:0,他引:11
The minirhizotron technique (MR) for in situ measurement of fine root dynamics offers the opportunity to obtain accurate and unbiased estimates of root production in perennial vegetation only if MR tubes do not affect the longevity of fine roots. Assuming fine root biomass is near steady-state, fine root production (g m–2 yr–1) can be estimated as the ratio of fine root biomass (g m–2) to median fine root longevity (yr). This study evaluates the critical question of whether MR access tubes affect the longevity of fine roots, by comparing fine root survivorship obtained using MR with those from a non-intrusive in situ screen method in the forest floor horizons of a northern hardwood forest in New Hampshire, USA. Fine root survivorship was measured in 380 root screens during 1993–1997 and in six horizontal minirhizotron tubes during 1996–1997. No statistically significant difference was found between estimates of survivorship of fine roots (<1 mm dia.) at this site from MR versus from in situ screens, suggesting that MR tubes do not substantially affect fine root longevity in the forest floor of this northern hardwood forest and providing greater confidence in measurements of fine root production using the MR technique. Furthermore, the methodology for estimating fine root production from MR longevity data was evaluated by comparison of fine root longevity and production estimates made using single vs. multiple root cohorts, and using root-number, root-length, and root-mass weighted methods. Our results indicate that fine root-length longevity estimates based on multiple root cohorts throughout the year can be used to approximate fine root biomass production. Using this method, we estimated fine root longevity and production in the forest floor at this site to be 314 days (or 0.86 yr) and 303 g m–2 yr–1, respectively. Fine root production in this northern hardwood forest is approximately equivalent to standing biomass and was previously underestimated by root in-growth cores. We conclude that the use of MR to estimate fine root longevity and production as outlined here may result in improved estimates of fine root production in perennial vegetation. 相似文献
997.
The biomass, production and mortality of fine roots (roots with diameter <2.5 mm) were studied in a typical Mediterranean holm oak (Quercus ilex L.) forest in NE Spain using the minirhizotron methodology. A total of 1212 roots were monitored between June of 1994 and March of 1997. Mean annual fine root biomass in the holm oak forest of Prades was 71±8 g m–2 yr–1. Mean annual production for the period analysed was 260+11 g m–2 yr–1. Mortality was similar to production, with a mean value of 253±3 g m–2 yr–1. Seasonal fine root biomass presented a cyclic behaviour, with higher values in autumn and winter and lower in spring and summer. Production was highest in winter, and mortality in spring. In summer, production and mortality values were the lowest for the year. Production values in autumn and spring were very similar. The vertical distribution of fine root biomass decreased with increasing depth except for the top 10–20 cm, where values were lower than immediately below. Production and mortality values were similar between 10 and 50 cm depth. In the 0–10 cm and the 50–60 cm depth intervals, both production and mortality were lower. 相似文献
998.
Biomass, carbonate standing stock and production of the mediterranean coralCladocora caespitosa (L.) 总被引:1,自引:0,他引:1
Summary The Mediterranean coralCladocora caespitosa often occurs in large beds, i.e. populations of hemispherical clonies with stock densities varying between 1.9 and 4 coloneis
·m−2. Laboratory measurements of volume, skeleton weight, surface and number of corallites per colony, coupled with mean annual
growth rates evaluated through sclerochronology, allowed for the estimation of biomass, skeleton bulk density, calcimass (carbonate
standing stock) and secondary production (both organic and inorganic) of twoC. caespitosa beds at 4 and 9 m depth. The mean colony biomass varied between 0.73 and 0.99 kg dw ·m−2, corresponding to a calcimass between 2 and 5 kg CaCO3·m−2. Organic secondary production was 215.5–305.4 g dw of polyps ·m−2·y−1, while the potential (mineral) production was 1.1–1.7 kg CaCO3·m−2·y−1, for the year 1996–1997.
These values show thatC. caespitosa is one of the major carbonate producers within the Mediterranean and one of the major epibenthic species originating stable
carbonate frameworks both in recent and past times. 相似文献
999.
1000.
Rates of inorganic nutrient and oxygen fluxes, and gross community primary productivity were investigated using incubated cores in July, August and September 2001, in a seagrass meadow of Lake Illawarra, a barrier estuary in New South Wales, Australia. The results indicated that rates of gross primary productivity were high, varying from C = 0.62 to 1.89 g m–2 d–1; low P/R ratios of 0.28–0.48 define the system as heterotrophic and indicate that more carbon is respired than is produced. In order to determine the effect of macroalgae on O2 and nutrient fluxes, measurements were also conducted on cores from which the macroalgae had been removed. The results showed that the O2 fluxes during light incubations were significantly lower in the cores without macroalgae (P<0.01), indicating that macroalgae could be a significant contributor to the primary production in the lake. In general, nutrient fluxes showed a typical diurnal variation with an efflux from sediments in the dark and a reduced efflux (or uptake) in the light. Dissolved inorganic nitrogen (NO2
–+ NO3
–+NH4
+) net fluxes were directed from the sediments towards the water column and dominated by the NH4
+ fluxes (>80%). NO2
–+ NO3
– and o-P fluxes were always very low during the sampling period. The increasing tendency of net nutrient effluxes, especially NH4
+ from July to September, is consistent with the increase of the water temperature and seagrass biomasses. However, in September, significantly lower light, dark and net NH4
+ effluxes were found in the cores with macroalgae (SA-sediments) compared with the cores without macroalgae (S-sediments). These results support the hypothesis that actively-growing dense macroalgal mats (i.e., algal blooms in September) may act as a filter reducing the flux of nutrients to the water column. 相似文献