土壤氮素内循环对生态覆被变化响应的研究进展

随着人口增长对粮食需求的不断提高,人类对自然生态系统扰动频繁,生态覆被/土地利用变化伴随着土壤活性氮库、氮形态组分及氮素内循环过程的改变,直接影响生态系统的持续与稳定,进而引起全球气候变暖,生物多样性减少等诸多生态环境问题。生态覆被/土地利用变化是全球生态系统变化的重要内容。本综述探讨了活性氮的基本概念及其引发的环境效应,国内外自然生态系统中森林与草地间转换、自然生态系统开垦为农田、弃耕撂荒或退耕还林还草、城市化发展等生态覆被/土地利用变化对土壤氮库消长、氮矿化产物形态变化以及影响氮循环的关键土壤微生物影响等,并探讨了制约氮循环的土壤微生物研究进展。指出农业开垦或农田弃耕撂荒会导致土壤全氮大幅度下降,同时引起土壤硝态氮(NO3--N)增加,造成环境活性氮增加的风险;退耕还林修复生态覆被过程中氮库完全恢复需要漫长的时间;运用现代微生物分子生态学的前沿技术是研究土壤氮循环对生态覆被/土地利用变化响应机理的关键。本综述为自然生态系统的保护与开发利用、退化生态系统的修复与重建以及人工生态系统的科学规划等提供了理论依据。     

The significance of small vs large intestinal digestion of cereal grain and oilseed protein in the equine

Mature ponies fitted with permanent ileal cannulas were used in two 3×3 Latin square experiments to quantify prececal, postileal and total tract digestion of N. In trial 1, corn, oats and sorghum were each fed with coastal Bermuda grass hay in 75:25 ratios. Apparent prececal digestibilities were similar (P>.05) and averaged 46.6%. By-difference procedures were employed to calculate digestibility of the cereal grain N only and apparent prececal N digestibility averaged 57.1%. In trial 2, a basal corn and hay diet was supplemented with cottonseed meal and soybean meal. Apparent total tract N digestibilities were similar (P>.05) across treatments, and prececal digestibility averaged 45.6%. By-difference calculations were used to determine digestibility of SBM and CSM N alone. Apparent prececal digestibility of SBM was 52.5% and was lower (P<.05) than 81.2% for CSM. It is possible that inadequate or excessive heat treatment of SBM affected enzymatic digestion. True digestibility of total rations fed in trial 2 was estimated by linear regression of nitrogen digested on nitrogen intake or N presented to the large intestine. True N digestibility of diets containing SBM and CSM was 54.7% and 69.4%, respectively.     

脲酶抑制剂NBPT对鸡粪好氧堆肥的保氮效果

利用堆肥反应器, 以鸡粪和蘑菇渣为原料进行好氧堆肥, 在堆肥中添加不同浓度的脲酶抑制剂NBPT, 研究其对堆肥氮素转化的影响及保氮效果。结果表明: 添加不同浓度的脲酶抑制剂NBPT对堆肥进程中温度无显著影响, 在堆肥的高温阶段可有效控制堆料pH的升高, 在堆肥高温前期的0~10 d可有效降低堆肥的脲酶活性, 在堆肥中后期10~25 d明显提高全氮含量。堆肥25 d后, 添加0.04 mL·kg^-1、0.08 mL·kg^-1、0.16 mL·kg^-1脲酶抑制剂NBPT分别比CK减少氮素损失6.61%、4.89%和13.51%。堆肥过程中, 堆料铵态氮含量呈升-降-升-降的双峰趋势, 且大部分时间CK处理的铵态氮含量高于添加脲酶抑制剂NBPT处理, 且CK处理铵态氮的两次升高速度均高于添加脲酶抑制剂NBPT处理。在堆肥的升温和高温期硝态氮含量不稳定, 但堆肥结束时, 各添加脲酶抑制剂NBPT处理的硝态氮含量显著高于CK处理。本试验结果表明, 在堆肥过程中添加脲酶抑制剂NBPT可延缓鸡粪中的尿素态氮向铵态氮的转化, 增加堆肥成品中的硝态氮含量。在畜禽粪好氧堆肥中加入脲酶抑制NBPT可起到一定的保氮作用。     

淹水条件下氨酸法生产颗粒有机无机复混肥养分缓释特性

采用直接淋洗和淹水培养间歇淋洗两种方法评价氨酸法生产颗粒有机无机复混肥的养分缓释特性。结果表明,对氨酸法生产有机无机复混肥造粒,有直接减缓其有机和无机养分释放的效应。在等氮水平下,不同种类有机无机复混肥累积淋失的氮量明显不同,且与淋失的有机碳量没有明显的相关关系,表明有机与无机养分的配比比例影响肥料的氮释放特性。在本研究中,造粒对氨酸法生产的有机和单一无机氮复混肥中氮养分的缓释效果最差,而对氮钾比为2∶1的两种肥料中有机和无机养分的缓释效果均相对较好。     

Impact of land-use types on soil nitrogen net mineralization in the sandstorm and water source area of Beijing,China

Changes of land-use type (LUT) can affect soil nutrient pools and cycling processes that relate long-term sustainability of ecosystem, and can also affect atmospheric CO₂ concentrations and global warming through soil respiration. We conducted a comparative study to determine NH₄⁺ and NO₃⁻ concentrations in soil profiles (0–200 cm) and examined the net nitrogen (N) mineralization and net nitrification in soil surface (0–20 cm) of adjacent naturally regenerated secondary forests (NSF), man-made forests (MMF), grasslands and cropland soils from the windy arid and semi-arid Hebei plateau, the sandstorm and water source area of Beijing, China. Cropland and grassland soils showed significantly higher inorganic N concentrations than forest soils. NO₃⁻-N accounted for 50–90% of inorganic N in cropland and grassland soils, while NH₄⁺-N was the main form of inorganic N in NSF and MMF soils. Average net N-mineralization rates (mg kg⁻¹ d⁻¹) were much higher in native ecosystems (1.51 for NSF soils and 1.24 for grassland soils) than in human disturbed LUT (0.15 for cropland soils and 0.85 for MMF soils). Net ammonification was low in all the LUT while net nitrification was the major process of net N mineralization. For more insight in urea transformation, the increase in NH₄⁺ and, NO₃⁻ concentrations as well as C mineralization after urea addition was analyzed on whole soils. Urea application stimulated the net soil C mineralization and urea transformation pattern was consistent with net soil N mineralization, except that the rate was slightly slower. Land-use conversion from NSF to MMF, or from grassland to cropland decreased soil net N mineralization, but increased net nitrification after 40 years or 70 years, respectively. The observed higher rates of net nitrification suggested that land-use conversions in the Hebei plateau might lead to N losses in the form of nitrate.     

氮磷配施对黄瓜体内硝酸盐含量的影响

在田间小区实验下,通过水杨酸比色法研究不同氮肥用量、不同磷肥用量对黄瓜体内硝酸盐含量的影响.结果表明:黄瓜体内硝酸盐含量随氮肥用量的增加而增加.第1次采样施肥后,每隔7d采1次样,第3次采样时黄瓜体内硝酸盐含量最高,之后又随时间的推移而下降.最佳氮磷配施用量(氮为375kg/hm2,磷为75k/hm2),此施肥量下黄瓜产量最高,并且硝酸盐累积量不超标.     

火焰原子吸收光谱法测定从江椪柑中的微量锌

通过正交试验优化组合,得到最佳仪器工作条件,用火焰原子吸收光谱法测定微量元素锌。结果表明:线性范围为0￣2.000μg/ml,标准曲线相关系数r为0.999 89,特征浓度为0.019(μg/ml)/1%,检出限为0.05μg/ml,标准偏差SD为0.38%,相对标准偏差RSD为1.43%,回收率为99.3%。该方法简便,灵敏度高,结果准确。     

原子吸收法测定荒漠肉苁蓉中微量元素的含量

采用火焰原子吸收分光光度法和石墨炉法对荒漠肉苁蓉样品中的金属元素Fe、Cu、Zn、Mg、Ca、Pb、Sn含量进行了测定.结果表明,此方法简单,精密度和灵敏度高,回收率为98.90%～101.27%,结果可靠.荒漠肉苁蓉中Mg、Ca、Fe、Zn含量较高.     

减源对超高产夏玉米物质积累及氮素利用的影响

通过不同减源处理,研究了在超高产条件下减源对夏玉米物质积累和氮素利用的影响。结果表明：在超高产条件下剪叶1／4和1／2后地上部生物量和籽粒产量未出现显著性下降;减源后玉米植株对氮素的积累量增加;超高产条件下剪叶1／4和1／2都可以提高氮素收获指数,且随剪叶程度加大,氮素收获指数呈现升高的趋势。选育高产条件下叶面积相对小的高产夏玉米品种,是解决高产条件下氮素利用率低的有效途径。