Isotopic variations of carbon and nitrogen and their implications on the conversion of Cerrado vegetation into pasture

IF 0.5 Q4 ENVIRONMENTAL SCIENCES Revista Brasileira de Ciencias Ambientais Pub Date : 2021-06-01 DOI:10.5327/z21769478845
Naelmo de Souza Oliveira, J. Schiavo, Miriam Ferreira Lima, Lais Thomaz Laranjeira, Geisielly Pereira Nunes, Sidne Canassa da Cruz
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引用次数: 1

Abstract

Conversions of natural vegetation into pasture can, in a short time, change the carbon stock and the natural abundance of δ13C in the soil. The objective of this study was to evaluate changes in carbon (C) and nitrogen (N) stocks, as well as in the natural abundance of δ13C and δ15N of Argissolo Vermelho distrófico (Acrisol), in an area of natural vegetation and planted pasture in the Cerrado region of Aquidauana (MS), Brazil. In order to do this, an area of pasture (PA), cultivated for 25 years with Urochloa brizantha, and an area of natural vegetation (NV) were evaluated. Soil samples were collected at intervals of 0.05 m up to 0.60 m depth, and physical attributes, C and N stocks (CSt and NSt) and isotopic variations of δ13C and δ15N of soil were determined. In the 0–0.05 m layer, the highest C and N stocks occurred in NV, 21.99 and 1.9 Mg ha-1, respectively. In the conversion to PA, 14.62 Mg ha-1 of CSt and 1.36 Mg ha-1 of NSt were lost in the 0–0.05 m layer. The area with PA had greater isotopic enrichment of δ13C in the layers of 0–0.05 and 0.05–0.10 m, with values of -18.3 and -17.4‰, respectively, while in the other layers the isotopic values decreased with the mixture between C of C3 and C4 plants. NV showed enrichment in the isotopic signals, in the layers from 0.25–0.30 m up to 0.40–0.45 m, with values between -21.74 and -21.54‰, respectively, which is characteristic of mixed vegetation of C3 and C4 plants. The values of δ15 N showed isotopic enrichment as depth increased, indicating greater mineralization of soil organic matter in both areas. The conversion of Cerrado into pasture and its consequent fragmentation causes negative impacts on the C and N sequestration and storage capacity, both in pasture and in natural vegetation.
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碳、氮同位素变化及其对塞拉多植被向牧场转化的意义
天然植被转化为牧场可以在短时间内改变土壤中的碳储量和δ13C的天然丰度。本研究的目的是评估巴西阿奎达乌纳(MS)塞拉多地区的自然植被和人工牧场中,Argissolo Vermelho distrófico(Acrisol)的碳(C)和氮(N)储量以及δ13C和δ15N的自然丰度的变化。为了做到这一点,对一片用乌罗奇洛阿brizantha种植了25年的牧场(PA)和一片自然植被(NV)进行了评估。以0.05m至0.60m深度的间隔采集土壤样品,测定土壤的物理属性、碳氮储量(CSt和NSt)以及δ13C和δ15N的同位素变化。在0–0.05 m层中,最高的C和N储量出现在NV中,分别为21.99和1.9 Mg ha-1。在向PA的转化过程中,0–0.05 m层中CSt的14.62 Mg ha-1和NSt的1.36 Mg ha-2损失。在0–0.05和0.05–0.10 m层,PA区的δ13C同位素富集度较高,分别为-18.3和-17.4‰,而在其他层,δ13C的同位素值随着C3和C4植物的C混合而降低。NV在0.25–0.30 m至0.40–0.45 m的地层中显示出同位素信号的富集,其值分别在-21.74和-21.54‰之间,这是C3和C4植物混合植被的特征。随着深度的增加,δ15N的值显示出同位素富集,表明这两个地区的土壤有机质矿化程度更高。塞拉多转变为牧场及其由此产生的碎片化对牧场和自然植被中的碳和氮固存和储存能力产生了负面影响。
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来源期刊
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发文量
15
审稿时长
25 weeks
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