安第斯马铃薯农业生态系统不同灌溉和雨养条件下的碳和水汽交换耦合

IF 2.8 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Theoretical and Applied Climatology Pub Date : 2024-07-03 DOI:10.1007/s00704-024-05034-1
Fabio Ernesto Martínez-Maldonado, Angela María Castaño-Marín, Gerardo Antonio Góez-Vinasco, Fabio Ricardo Marin
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引用次数: 0

摘要

水与碳的基本交换为了解陆地生态系统中碳与水循环之间的相互作用奠定了基础,为了解全球水与碳平衡以及植被生长提供了宝贵的信息。固有水利用效率(IWUE)被用作碳与水交换的昼夜模式和耦合程度的研究框架,用于研究哥伦比亚昆迪纳马卡省三种水制度马铃薯种植系统(全灌溉(FI)、亏缺灌溉(DI)和雨水灌溉(RF))的生态系统净碳交换(NEE)响应。采用涡度协方差法测定了二氧化碳和水通量、表面电阻和欧米茄解耦因子(Ω)。此外,还评估了叶面积指数(LAI)和比叶面积(SLA),以确定冠层对碳和水交换的影响。FI 的碳汇活性最高(NEE = -311.96 ± 12.82 g C m-2),这主要归因于树冠较大,自养活性高,内阻小。这支持了蒸散量(ET)和总初级生产力(GPP)之间的高度耦合和同步交换,最高的 IWUE(4.7 毫克 C kPa s-1 kg-1 H2O)就反映了这一点。与此相反,DI(NEE = - 17.3 ± 4.6 g C m-2)和 RF(NEE = 187.21 ± 3.84 g C m-2)的净碳源活动较低,这与可用于水和碳交换的叶面积较小有关,导致 IWUE 较低(分别为 2.3 和 1.01 mg C kPa s-1 kg-1 H2O),以及对蒸散发和总初级生产力通量的不平衡限制导致气体交换脱钩和不同步。这些结果为马铃薯的碳-水相互作用提供了新的信息,并加深了人们对固碳和干旱对马铃薯吸收汇活动影响的理解。
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Carbon and water vapor exchanges coupling for different irrigated and rainfed conditions on Andean potato agroecosystems

The fundamental exchange of water for carbon lays the groundwork for understanding the interplay between carbon and water cycles in terrestrial ecosystems, providing valuable insights into global water and carbon balances and vegetation growth. Inherent water use efficiency (IWUE) was used as a study framework of the diurnal patterns and degree of coupling of carbon and water exchange to investigate the net ecosystem carbon exchange (NEE) responses of three water regime potato cropping systems [full-irrigation (FI), deficit-irrigation (DI), and rainfed (RF)] in Cundinamarca, Colombia. The eddy covariance method was used to determine CO2 and water fluxes, surface resistances, and the omega decoupling factor (Ω). Additionally, leaf area index (LAI), and specific leaf area (SLA) were assessed to determine the canopy influence on carbon and water exchange. The highest carbon sink activity (NEE = -311.96 ± 12.82 g C m−2) at FI, is primarily attributed to a larger canopy with high autotrophic activity and low internal resistance. This supported a highly coupled and synchronized exchange between evapotranspiration (ET) and gross primary production (GPP), as reflected in the highest IWUE (4.7 mg C kPa s−1 kg−1 H2O). In contrast, the lower sink capacity at DI (NEE = − 17.3 ± 4.6 g C m−2) and the net carbon source activity from RF (NEE = 187.21 ± 3.84 g C m−2) were related to a smaller leaf area available for water and carbon exchange, resulting in lower IWUE (2.3 and 1.01 mg C kPa s−1 kg−1 H2O, respectively) and a decoupled and desynchronized gas exchange caused by unbalanced restrictions on ET and GPP fluxes. These results provide new information on carbon–water interactions in potatoes and improve the understanding of carbon sequestration and drought effects on potato sink activity.

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来源期刊
Theoretical and Applied Climatology
Theoretical and Applied Climatology 地学-气象与大气科学
CiteScore
6.00
自引率
11.80%
发文量
376
审稿时长
4.3 months
期刊介绍: Theoretical and Applied Climatology covers the following topics: - climate modeling, climatic changes and climate forecasting, micro- to mesoclimate, applied meteorology as in agro- and forestmeteorology, biometeorology, building meteorology and atmospheric radiation problems as they relate to the biosphere - effects of anthropogenic and natural aerosols or gaseous trace constituents - hardware and software elements of meteorological measurements, including techniques of remote sensing
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