Do irrigated and rainfed agrosystems change aboveground and root carbon and nitrogen stocks in a semiarid environment?

IF 2.6 3区环境科学与生态学 Q2 ECOLOGY

Journal of Arid Environments Pub Date : 2024-07-12 DOI:10.1016/j.jaridenv.2024.105223

Mônica Silva Santana , Vanderlise Giongo , Everardo Valadares de Sá Barretto Sampaio , Eunice Maia de Andrade

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Abstract

Determining shoot and root biomass and carbon (C) and nitrogen (N) stocks in different ecosystems is crucial to propose adaptative measures to reduce greenhouse gas emission. Data on systems of semiarid areas are scarce, especially irrigated ones. We compared biomasses of four irrigated (bean, maize, grapevine, and mango) and four rainfed livestock systems (buffel grass, prickly pear, gliricidia and leucaena) with those of a preserved and an open tropical dry forest (Caatinga) used as pasture. Caatinga biomass was estimated by allometry and biomasses of the other systems by the destructive method. Root biomasses were determined in layers down to 100 cm. Mango had the highest aboveground and root biomasses: 34.2 and 91.3 Mg ha⁻¹. Preserved Caatinga was the second in aboveground biomass: 25.1 Mg ha⁻¹, compared 9–14.1 Mg ha⁻¹ of the open Caatinga and permanent crops and 3.0–11.8 Mg ha⁻¹ of the grass and annual crops. Preserved Caatinga, gliricidia and buffel grass formed the second group in root biomass (23.7–25.1 Mg ha⁻¹), while all other systems had less than 13.5 Mg ha⁻¹. Preserved and open Caatinga, annual crops and prickly pear had root:shoot ratios below 1, while the other systems had ratios >1, especially mango (2.7). Most systems had roots concentrated in the 0–15 cm layer, but the permanent crops, except prickly pear, concentrated about half of their roots in deeper layers. C (34.2–46.6%) and N (0.6–3.4%) concentrations varied less than biomasses. Root biomass was the plant factor mostly correlated with soil C and N stocks. Therefore, irrigated crops can accumulate more biomass than the native forest, but substitution by mango led to a severe depletion in soil C and N stocks, and all other systems also lost soil C and N. Management strategies such as green manure and crop diversification should be adopted to maintain plant and soil C and N stocks similar to those of the original vegetation.

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在半干旱环境中，灌溉和雨水灌溉农业系统是否会改变地上和根部的碳储量和氮储量？

确定不同生态系统的根茎生物量、碳（C）和氮（N）储量对于提出减少温室气体排放的适应性措施至关重要。有关半干旱地区生态系统的数据很少，尤其是灌溉系统。我们比较了四种灌溉系统（豆类、玉米、葡萄树和芒果）和四种雨水灌溉牲畜系统（水牛草、刺梨、鹅掌楸和鹅掌楸）的生物量，以及作为牧场的保护林和开放式热带干旱林（Caatinga）的生物量。Caatinga 的生物量是通过比重测定法估算的，而其他系统的生物量则是通过破坏法估算的。根的生物量是在 100 厘米以下的层中测定的。芒果的地上生物量和根系生物量最高：34.2 兆克/公顷和 91.3 兆克/公顷。受保护的 Caatinga 的地上生物量位居第二：25.1 毫克/公顷-1，而开放的 Caatinga 和永久性作物的地上生物量为 9-14.1 毫克/公顷-1，草地和一年生作物的地上生物量为 3.0-11.8 毫克/公顷-1。在根系生物量方面，受保护的卡廷加、鹅掌楸和水牛草排在第二位（23.7-25.1 兆克/公顷-1），而所有其他系统的根系生物量都低于 13.5 兆克/公顷-1。保留和开放的卡廷加、一年生作物和刺梨的根茎比低于 1，而其他系统的根茎比为 1，尤其是芒果（2.7）。大多数系统的根系集中在 0-15 厘米层，但除刺梨外，永久性作物的根系约有一半集中在较深层。碳（34.2-46.6%）和氮（0.6-3.4%）浓度的变化小于生物量的变化。根系生物量是与土壤碳储量和氮储量最相关的植物因子。因此，灌溉作物可以积累比原始森林更多的生物量，但芒果的替代会导致土壤碳储量和氮储量的严重消耗，所有其他系统也会损失土壤碳储量和氮储量。

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来源期刊

Journal of Arid Environments 环境科学-环境科学

CiteScore

5.70

自引率

3.70%

发文量

144

审稿时长

55 days

期刊介绍： The Journal of Arid Environments is an international journal publishing original scientific and technical research articles on physical, biological and cultural aspects of arid, semi-arid, and desert environments. As a forum of multi-disciplinary and interdisciplinary dialogue it addresses research on all aspects of arid environments and their past, present and future use.