Department of Agricultural Sciences, Biotechnology and Food Science, Faculty of Geotechnical Sciences and Environmental Management, Cyprus University of Technology, 3603, Limassol, Cyprus.
Environ Sci Pollut Res Int. 2018 Dec;25(36):35915-35927. doi: 10.1007/s11356-017-1187-4. Epub 2018 Jan 18.
Peat-based growing media are not ecologically sustainable and peat extraction threatens sensitive peatland ecosystem. In this study, olive-stone waste (OSW) and paper waste (PW) were used in different ratios-as growing media-for ornamental crop production, as peat (P) substitutes. Marigold (Calendula officinalis L.), petunia (Petunia x hybrita L.) and matthiola (Matthiola incana L.) plants were grown in (1) P (100%), (2) P:OSW (90%:10%), (3) P:OSW (70%:30%), and (4) P:OSW:PW (60%:20%:20%). The physicochemical properties of these substrates and the effects on plant growth were determined. The addition of 10-30% OSW into the substrate increased marigold height compared to plants grown in 100% peat. No differences in plant size, plant biomass (leaves and flowers), and dry matter content were found. Adding PW, in combination with OSW, maintained marigold height and total number of flowers produced to similar levels as in plants grown in 100% peat. In matthiola, adding 30% OSW into the substrate reduced plant size and fresh weight, but not plant height. No differences were observed when plants grew in lower OSW (i.e., 10%) content. Petunia's height, its total number of flowers and flower earliness (flower opening) were increased in the presence of OSW compared to the plants grown in 100% peat. The addition of OSW did not affect petunia's size and fresh weight among treatments. The addition of PW suppressed several plant growth-related parameters for both matthiola and petunia. The insertion of OSW did not change leaf chlorophyll content whereas the presence of PW decreased chlorophylls for marigold, petunia, and matthiola. Both OSW and PW altered the content of total phenolics and antioxidant capacity of 2,2-diphenyl-1-picrylhydrazyl (DPPH) and 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulphonic acid) (ABTS) in leaves and flowers for marigold and petunia. Both 30% OSW and PW increased antioxidative enzyme metabolism due to the increased damage index and lipid peroxidation observed in plants. Leaf N and P content decreased in PW-based media, while matthiola displayed visual phytotoxicity symptoms when PW was added into the substrate. The present work indicates that up to 30% of OSW can replace peat for marigold and petunia growing and only up to 10% of OSW for matthiola, while the addition of PW on top of OSW is not recommended, so further research is needed.
基于泥炭的栽培基质不具有生态可持续性,泥炭开采会威胁到敏感的泥炭地生态系统。在这项研究中,橄榄石废料(OSW)和废纸(PW)以不同比例(作为生长基质)代替泥炭用于观赏作物生产。万寿菊(Calendula officinalis L.)、矮牵牛(Petunia x hybrida L.)和香雪球(Matthiola incana L.)植物分别在(1)P(100%)、(2)P:OSW(90%:10%)、(3)P:OSW(70%:30%)和(4)P:OSW:PW(60%:20%:20%)中生长。测定了这些基质的物理化学性质及其对植物生长的影响。与在 100%泥炭中生长的植物相比,向基质中添加 10-30%的 OSW 可增加万寿菊的高度。植物大小、植物生物量(叶片和花朵)和干物质含量没有差异。在 OSW 中添加 PW,并与 OSW 结合,可保持万寿菊的高度和总花数与在 100%泥炭中生长的植物相似。在香雪球中,向基质中添加 30%的 OSW 会降低植物的大小和鲜重,但不会降低植物的高度。当植物生长在 OSW 含量较低(即 10%)时,没有观察到差异。与在 100%泥炭中生长的植物相比,OSW 的存在增加了矮牵牛的高度、总花数和开花早期(开花)。OSW 的添加对矮牵牛的大小和鲜重没有影响。PW 的添加抑制了香雪球和矮牵牛的几个与植物生长有关的参数。OSW 的插入并没有改变叶片叶绿素含量,而 PW 的存在降低了万寿菊、矮牵牛和香雪球的叶绿素含量。OSW 和 PW 改变了 2,2-二苯基-1-苦基肼(DPPH)和 2,2'-联氮-双(3-乙基苯并噻唑啉-6-磺酸)(ABTS)在叶片和花朵中总酚含量和抗氧化能力,用于万寿菊和矮牵牛。由于观察到植物的损伤指数和脂质过氧化增加,30%的 OSW 和 PW 均增加了抗氧化酶代谢。PW 基培养基中的叶片 N 和 P 含量下降,而 PW 添加到基质中时,香雪球出现明显的植物毒性症状。本研究表明,30%的 OSW 可用于万寿菊和矮牵牛的生长,而 OSW 仅可用于香雪球的生长,10%的 OSW 即可,而不建议在 OSW 基础上添加 PW,因此需要进一步研究。
