Nitrogen leaching and groundwater recharge of alternative lawn conversions in subtropical climates

IF 2 3区 农林科学 Q2 AGRONOMY Crop Science Pub Date : 2024-10-17 DOI:10.1002/csc2.21381
P. Agustin Boeri, J. Bryan Unruh, Kevin E. Kenworthy, Ann R. S. Blount, Marco Schiavon, Alexander J. Reisinger, Basil V. Iannone
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Abstract

Climate change, recurrent droughts, and increasing urban water demands have limited water availability in urban landscapes. Water quantity challenges have led to irrigation restrictions and turfgrass removal programs. An experiment was conducted at the University of Florida, West Florida Research and Education Center, Jay, FL, to evaluate the effect of turfgrass conversion to other landscape types on nutrient leaching and groundwater recharge. In April 2021, all surface vegetation was removed from existing turfgrass plots using a sod harvester. Thereafter, plots were planted or covered with three landscape types: a pollinator landscape with flowering forbs (Mimosa sp., Coreopsis sp., and Phyla sp.) + turfgrass (Eremochloa ophiuroides); a nitrogen (N)‐efficient lawn (Arachis glabrata + Paspalum notatum); and a low‐input landscape with unplanted woodchip mulch. Undisturbed turfgrass (E. ophiuroides) served as a control. For 2 years, leachate samples were collected weekly from previously installed 168‐L drainage lysimeters for NO3‐N and NH4‐N load determination. Temporal changes in landscape composition, groundwater recharge, water use, and soil bulk density were also quantified. While the mulch leached 44.7 kg ha−1 NO3‐N year−1, this landscape still offers positive attributes, including erosion protection and water conservation. Conversely, the pollinator landscape minimized nitrogen leaching (8.3 kg ha−1 NO3‐N year−1) due to their relatively greater water use rates (3.56 mm day−1). The turfgrass and nitrogen‐efficient lawn returned ∼35% of the water inputs as groundwater recharge while maintaining relatively low nitrogen leaching (3.6 and 2.7 kg ha−1 NO3‐N year−1, respectively), making these landscapes efficient for protecting both water quality and quantity.
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亚热带气候条件下替代性草坪改造的氮沥滤和地下水补给
气候变化、干旱频发以及城市用水需求的不断增长限制了城市景观的可用水量。水量方面的挑战导致了灌溉限制和草皮移除计划。佛罗里达大学西佛罗里达研究与教育中心在佛罗里达州杰伊市进行了一项实验,以评估将草皮草转换为其他景观类型对养分沥滤和地下水补给的影响。2021 年 4 月,使用草皮收割机清除了现有草皮地块上的所有地表植被。此后,在这些地块上种植或覆盖了三种景观类型:含花草本植物(含羞草属、拟南芥属和杓兰属)+草坪草(Eremochloa ophiuroides)的授粉景观;氮(N)效率草坪(Arachis glabrata + Paspalum notatum);以及未种植木屑覆盖物的低投入景观。未受干扰的草坪草(E. ophiuroides)作为对照。在两年的时间里,每周都会从之前安装的 168-L 排水渗滤池中收集渗滤液样本,用于测定 NO3-N 和 NH4-N 的负荷。此外,还对景观构成、地下水补给、用水量和土壤容重的时间变化进行了量化。虽然地膜每年沥滤 44.7 千克/公顷 NO3-N,但这种景观仍具有积极的属性,包括防侵蚀和节水。相反,授粉景观由于其相对较高的用水量(3.56 毫米/天-1),最大限度地减少了氮的沥滤(8.3 千克/公顷-1 NO3-N 年-1)。草皮草和节氮草坪将 35% 的输入水量返还为地下水补给,同时保持相对较低的氮沥滤量(分别为 3.6 千克/公顷-1 NO3-N 年-1 和 2.7 千克/公顷-1 NO3-N 年-1),使这些景观在保护水质和水量方面都很有效。
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来源期刊
Crop Science
Crop Science 农林科学-农艺学
CiteScore
4.50
自引率
8.70%
发文量
197
审稿时长
3 months
期刊介绍: Articles in Crop Science are of interest to researchers, policy makers, educators, and practitioners. The scope of articles in Crop Science includes crop breeding and genetics; crop physiology and metabolism; crop ecology, production, and management; seed physiology, production, and technology; turfgrass science; forage and grazing land ecology and management; genomics, molecular genetics, and biotechnology; germplasm collections and their use; and biomedical, health beneficial, and nutritionally enhanced plants. Crop Science publishes thematic collections of articles across its scope and includes topical Review and Interpretation, and Perspectives articles.
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