凋落叶对土壤速效养分和有机碳库的影响

K. Bhardwaj, M. Singh, D. Raj, Sonia Devi, G. Dahiya, Suraj P. Sharma, M. Sharma
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引用次数: 1

摘要

在2、5、10m的距离上,研究了不同林分、印度楝、大Ailanthus和无树对照对土壤速效养分和有机碳库的影响。研究期间,不同林分的凋落物总量在1712 ~ 4126kg/ha之间,1月最大,2月最小。不同人工林的年凋落物量差异较大。不同人工林林冠下的凋落物积累量以林带最高,其次是木杉,最低的是印楝。土壤有机碳、溶解有机碳、微生物生物量碳、速效宏量元素(N、P、K)和微量元素(Zn、Fe、Mn、Cu)均有明显改善。土壤有机碳(0.14% ~ 0.26%)、速效氮(55.9 ~ 116.6kg/ hm2)、磷(9.6 ~ 13.6kg/ hm2)和钾(188.9 ~ 248.3kg/ hm2)均显著高于裸地。这些树种的Zn、Cu、Fe和Mn的含量分别比对照地高15%、25%、40%和51%。不同人工林通过凋落物返回土壤的养分量在2m距离处显著最高。研究表明,在不同的土地利用系统中,速效养分和有机碳库均有显著改善。由于精耕细作和单作,土壤肥力日益恶化。同时,由于人口日益增加,它给土壤等自然资源造成了压力。因此,使用退化和有问题的土壤进行种植是明智的。农林复合系统已被认为是恢复退化地区的另一种选择,它提供生态系统服务并减少人类对天然林的影响(Nair等人,2009)。以树木为基础的土地利用系统在荒地复垦、劣质水利用、有机碳积累和减缓气候变化相关风险方面具有特殊作用。在哈里亚纳邦和拉贾斯坦邦地区,像Prosopis cineraria, Azadirachta indica和Ailanthus excels这样的树木在恶劣环境下更有利,因为它们具有抗旱性,对恶劣气候的抵抗力和经济回报的保证。这些树种可以生长在肥力差、水分不足和土壤温度高的土壤上。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of Tree Leaf Litterfall on available Nutrients and Organic Carbon Pools of Soil
A study was conducted to investigate the effect of leaf litterfall of shelterbelt, Azadirachta indica, Ailanthus excels and Prosopis cineraria and control (devoid of trees) on available nutrients and organic carbon pools of soil from 3 distances (2, 5 and 10m) The total litterfall during the study period ranged between 1712 and 4126kg/ha and it was found maximum in the month of January and it was minimum in February in different plantations. Annual litterfall showed considerable variation among different plantations. Litter accumulation under the different plantations canopy was highest in the shelterbelt followed by Prosopis cineraria and lowest in the Azadirachta indica. There was improvement in soil organic carbon, dissolved organic carbon, microbial biomass carbon, available macro (N, P and K) and micronutrients (Zn, Fe, Mn and Cu) tree species when compared to field without trees. Significant improvement in soil organic carbon (0.14 to 0.26 %), available N (55.9 to 116.6kg/ha) P (9.6 to 13.6kg/ha) and K (188.9 to 248.3kg/ha) was observed under these tree species compared to field without trees. The content of Zn, Cu, Fe and Mn and was 15, 25, 40 and 51 percent, respectively higher under these tree species than the control field. The amount of nutrients returned to the soils through litter was significantly highest at 2m distance under different plantations. The present study indicated that these available nutrients and organic carbon pools improved significantly across the different land use system. Due to intensive cultivation and monocropping, the fertility of soil is deteriorating day by day. Simultaneously it is creating a pressure on the natural resources like soil because the population is increasing day by day. Therefore, it is wise to use degraded and problematic soil for cultivation. Agroforestry systems have been recognized as an alternative for the rehabilitation of degraded areas and it provides ecosystem services and reduces human impacts on natural forests (Nair et al., 2009). Tree based land use systems have special role in reclamation of wastelands, use of poor-quality waters, organic carbon build up and moderating climate change related risks. In areas of Haryana and Rajasthan trees like Prosopis cineraria, Azadirachta indica and Ailanthus excels are more beneficial under adverse environments due to their drought hardiness, resistance to inhospitable climate and assured economic returns. These tree species can be grown on soils having poor fertility, moisture deficit and high soil temperature.
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