低温处理对紫苏生理指标的影响

[目的]研究低温处理对紫苏生理指标的影响,确定造成紫苏叶片低温伤害的时间。[方法]将紫苏叶分别低温处理0、12、24、36、48和60 h,并测定其叶绿素、可溶性蛋白质及可溶性糖的含量,并考察2～5℃低温对紫苏叶片生理指标的影响,确定紫苏叶片低温伤害的时间。[结果]低温处理48 h能明显减少叶片中叶绿素的含量,而且低温处理60 h的叶绿素含量减少非常明显;低温处理48 h能明显减少叶片中可溶性蛋白质和可溶性糖的含量。[结论]低温处理超过48 h,紫苏就会受到伤害;低温处理时间达到60 h时,紫苏受到的伤害程度加重。     

Nitrogen requirements associated with improved conservation tillage for corn production

Abstract

Excessive soil erosion and use of nitrogen fertilizer are costly to the Atlantic Coastal Plain corn (zea mays L., ’Funks G 4507') producer and both may serve to create environmental hazards. An in‐row chisel (36 cm deep) tillage method was compared with the standard 5 cm fluted coulter method for planting corn in premature wheat (Triticim aestivum L.) residues grown on an Orangeburg sandy loam (Typic Paleudult). Five orthogonal N levels ranging up to 440 kg of N/ha were used to determine an economic N optimum for each tillage method.

The in‐row chisel tillage method provides a possible yield advantage in the Atlantic Coastal Plain because of observed restricting soil layers within the normal corn rooting zone. The estimated profit‐maximizing quantities of N fertilizer were 262 and 295 kg of N/ha (234 and 263 1b of N/acre) for the fluted coulter and in‐row tillage procedures, respectively. Corn grain yields associated with these inputs were 9.6 × 10³ and 12.6 × 10³ kg/ha (153 and 200 bu/acre), respectively. The yield increase associated with in‐row chiseling through a 2.5 metric ton mulched surface is attributed to potentially improved rooting and more efficient water storage and use.     

五味子实生苗地下横走茎形态发生研究

对五味子实生苗地下横走茎的形态发生、发育过程进行了研究。结果表明:1 a生五味子子叶腋芽可发育为地下横走茎,但其发育较缓慢,在8月下旬至9月初才发育成地下横走茎,第1片真叶腋芽和第2片真叶腋芽当年均可以发育成地下横走茎;2 a生和多年生五味子植株基部的越冬芽都会发育成地下横走茎;无论是子叶腋芽还是越冬芽在转变初期与一般芽形态相似,但经过伸长生长后,其茎尖开始弯曲以适应地下生长。地下横走茎的发生部位较集中,常呈轮生状。较高节位芽的超显微结构与子叶叶芽存在较大差异,说明五味子的芽能否形成地下横走茎在其形成的早期可能就已经决定。     

Corn (Zea mays L.) Grain and Stover Yield as Affected by Soil Residual Mineral Nitrogen

Evaluation of nitrogen (N) dynamic in soil using regression equations is important for proper determination of N fertilization. A 3-year field experiment was conducted to (1) develop the best-fitted regression model relating corn grain and stover yield to soil residual ammonium (NH₄)-N and nitrate (NO₃)-N for corn yield prediction and (2) evaluate how such a model can be beneficial to the health of ecosystem by predicting the appropriate rates of N fertilization for corn production. Soil NH₄-N and NO₃-N were determined at corn harvest at the depths of 0–30 and 30–60 cm. Nitrogen fertilizer rates and soil mineral N accounted for a maximum of 93% variation in corn grain yield. Soil mineral N enhanced corn yield more than N fertilizer. Totals of 63.1 and 14.1 kg/ha of soil residual NO₃-N and NH₄-N were found in the 0- to 60-cm depth, indicating the importance of performing soil N tests.     

超干处理和贮藏对番茄和辣椒种子生活力和活力的影响

试验采用氧化钙为干燥剂对番茄和辣椒种子进行超平处理和贮藏，以研究其对种子生活力和活力的影响。结果表明，番茄种子水分降至3．77％、辣椒种子水分降至3．86％，未发现对种子生活力和活力有明显的影响；对不同含水量的番茄和辣椒种子室温密闭贮今6个月后的调查结果发现，超低水分种子生活力和活力较高，细胞膜能保持较好的完整性，脱氢酶活性和呼吸强度较高。由此可见超干贮藏有利于保持番茄和辣椒种子的生活力和活力。     

Effect of Planting Sequence and Time, and Nitrogen on Maize Legume Intercrop Yield

Productivity of maize ( Zea mays L.) legume intercrops is determined by soil, management, and environment. Planting sequence and time and N fertilization are easily controlled management factors but their effects on intercrop yields are not well understood. Maize grown in monoculture or intercropped with polebean ( Phaseolus vulgaris L.) or cowpea ( Vigna unguiculata [L.] Warp.) was studied for two growing seasons at Morgantown, WV. Crops were seeded in the following sequences: maize before legume, both at the same time, and legume before maize. Planting times were early May or mid June. Nitrogen was applied at 0 or 160 kg ha⁻¹. Maize grain and forage, legume grain and forage, and total forage production were determined on a dry matter basis. Intercropping (average of all treatments) reduced maize grain and forage yields compared to maize in monoculture but had no effect on total forage production. However, total forage production was greatest when the seeding sequence was maize intercropped at the same time or before cowpea. Cowpea never produced grain, but forage production was almost double that of polebean. Maize produced most forage when seeded before the legumes, and the legumes produced most forage when seeded before maize. Early planting increased maize production and decreased legume production. Nitrogen increased maize grain, maize forage, and total forage yields but had not effect on legume forage production. It is concluded that maize/legume intercrops show promise for increasing forage production in temperate areas and more research on planting times and densities, weed control, harvesting and management is needed.     

黄皮种子脱水敏感性与核酸、蛋白质代谢的关系

黄皮种子发育晚期,胚内核酸和蛋白质合成能力增强,而花生种子发育晚期则呈下降趋势。脱水处理使生理成熟期黄皮胚核酸和蛋白质合成能力急剧下降,核酸水解酶活性增强。生物大分子代谢能力的变化是黄皮种子脱水敏感性的分子基础。     

超微粉碎技术对黄芪多糖、淫羊藿多糖溶出的影响

用蒽酮-硫酸法测定了黄芪，淫羊藿普通粉和超微粉对其多糖溶出量的影响，结果表明，在相同的条件下，超微粉中黄芪多糖，淫羊藿多糖提取量较普通粗粉分别提高了117.13%和315.15%。     

同工酶在西南地区野生狗牙根遗传多样性上的研究

对36份具有代表性的西南地区野生狗牙根材料采用同工酶进行遗传多样性研究,筛选出优良草坪草C1,C32,C9和部分优良育种材料,为西南地区狗牙根的开发利用及申报品种提供理论依据。     

Change in flower morphology of Torenia fournieri Lind. induced by forchlorfenuron application

We induced various flower morphologies in torenia (Torenia fournieri Lind.) by the application of forchlorfenuron (CPPU). Those morphologies were the combination of four basic morphological changes, the development of serrate petals, incised petals, a paracorolla, and an increased number of floral organs. These morphological changes occurred systematically depending on the floral stage at the time of CPPU application. Serrate petals were induced when CPPU was applied during the stages of corolla development, whereas application at younger stages induced petal incision. The serrate petal margin resulted from preferential proliferation of cells around the vascular bundles, whereas petal incision likely resulted from the lateral outgrowths of petal. A paracorolla was induced at the adaxial petal face when CPPU was applied between the sepal development stage and early corolla development. The paracorolla appears to have arisen from the lateral outgrowths of the stamen. The numbers of stamens, petals, and sepals increased when CPPU was applied at and before the differentiation of sex organs and the corolla. Enlargement of the floral meristem probably caused this increase. Application of N⁶-benzylaminopurine and zeatin did not induce these morphological changes.