Lima Neto Antonio João de, Krug Amanda Veridiana, Moura-Bueno Jean Michel, Rozane Danilo Eduardo, Natale William, Hindersmann Jacson, Marques Ana Luiza Lima, Stefanello Lincon Oliveira, Papalia Daniéle Gonçalves, Brunetto Gustavo
Department of Plant Science, Federal University of Ceará (UFC), Fortaleza 60356-000, CE, Brazil.
Department of Soil Science, Federal University of Santa Maria (UFSM), Santa Maria 97105-900, RS, Brazil.
Plants (Basel). 2025 Jun 9;14(12):1764. doi: 10.3390/plants14121764.
Establishing critical levels (CLs) and sufficiency ranges (SRs) for nutrients improves fertilizer recommendations and supports citrus yield and fruit quality. The objective of this study was to establish CLs, soil fertility classes, and leaf nutrient SRs for citrus. This study used data on the yield and nutrients of the soil and leaves, collected from 2016 to 2021, of commercial orange () and tangerine () orchards in the Southwest and Metropolitan regions of the state of Rio Grande do Sul, in southern Brazil. The yield data were related to the soil attributes/leaf nutrient contents. From the models obtained from this relationship, soil fertility classes and leaf sufficiency ranges were established using the boundary line (BL) method. The appropriate classes are 5.1-5.6 for pH, 1.0-1.4% for OM, 65.8-129.0 mg dm for P, 161.4-326.0 mg dm for K, 0.9-1.4 cmol dm for Ca, 0.22-0.34, cmol dm for Mg, 1.9-2.9 cmol dm for SB, 4.5-5.8 cmol dm for CEC, and 40.6-53.2% for V. The appropriate ranges of leaf contents were as follows: 19.1-22.7 g kg of N, 0.8-1.3 g kg of P, 7.8-11.3 g kg of K, 20.9-28.4 g kg of Ca, 2.0-3.3 g kg of Mg, 2.0-3.0 g kg of S, 88.8-127.5 mg kg of B, 28.3-73.6 mg kg of Cu, 74.3-122.5 mg kg of Fe, 55.7-89.3 mg kg of Mn, and 10.9-15.6 mg kg of Zn. The BL method made it possible to establish nutrient CLs using data from commercial orchards, which is not possible when using conventional approaches. The established norms will allow for a more precise definition of the real need for fertilizer application in citrus orchards.
确定养分的临界水平(CLs)和充足范围(SRs)可改进肥料推荐,并有助于提高柑橘产量和果实品质。本研究的目的是确定柑橘的临界水平、土壤肥力等级和叶片养分充足范围。本研究使用了2016年至2021年从巴西南部南里奥格兰德州西南和大都市地区的商业橙子园和橘子园收集的土壤和叶片产量及养分数据。产量数据与土壤属性/叶片养分含量相关。根据这种关系得到的模型,使用边界线(BL)法确定了土壤肥力等级和叶片充足范围。适宜等级为:pH值5.1 - 5.6,有机质1.0 - 1.4%,有效磷65.8 - 129.0毫克/分米,速效钾161.4 - 326.0毫克/分米,钙0.9 - 1.4厘摩尔/分米,镁0.22 - 0.34厘摩尔/分米,阳离子交换量4.5 - 5.8厘摩尔/分米,交换性钙40.6 - 53.2%。叶片含量的适宜范围如下:氮19.1 - 22.7克/千克,磷0.8 - 1.3克/千克,钾7.8 - 11.3克/千克,钙20.9 - 28.4克/千克,镁2.0 - 3.3克/千克,硫2.0 - 3.0克/千克,硼88.8 - 127.5毫克/千克,铜28.3 - 73.6毫克/千克,铁74.3 - 122.5毫克/千克,锰55.7 - 89.3毫克/千克,锌10.9 - 15.6毫克/千克。边界线法使得利用商业果园的数据确定养分临界水平成为可能,而使用传统方法则无法做到这一点。所确定的标准将有助于更精确地界定柑橘园实际的施肥需求。
