Search Results (10)

In the floriculture sector, it has been identified that the use of agrochemicals, fuels, and various raw materials has a significant impact on the environment, and, from an economic point of view, their use improves the quality of life of the people involved in the activity, and at the same time contributes to the development of the territories. Therefore, in order to address these issues, sustainability-oriented solutions have been proposed. This study focuses on the performance of a Life Cycle Assessment (LCA) of hydrangea production, addressing its environmental and economic dimensions, using the conventional method according to ISO 14040 and ISO 14044 standards. The functional unit was defined as one kilogram (1 kg) of hydrangea stems from a 36-week production cycle in three different crop sizes, as follows: small (0.45 ha), medium (1.20 ha), and large (2.99 ha). The boundaries of the gate-to-gate system were used, including the stages of growing and transporting of the flowers, to delivery to the marketer. The results showed significant environmental impacts in the areas of climate change, human toxicity, and acidification, resulting from phytosanitary management; use of fertilizers, fuel, and raw materials for infrastructure; and packaging of flowers for delivery to the marketer. In addition, from an economic point of view, it was shown that the most significant internal costs were associated with the cultivation phase, while the external costs were associated with CO₂ emissions. The return on investment was less than 0.15 years, with human productivity more than 73%, and infrastructure investment less than 16%. These results highlight the need to implement effective measures to mitigate negative impacts and promote more sustainable practices in floriculture to further strengthen the sector, as hydrangeas are an export product. Full article

Studying the social dynamics and development potential of agricultural enterprises is fundamental to promoting sustainable territorial growth. This study aims to assess the impact of growers of small and medium-sized hydrangea crops in the Colombian province of La Paz through a social life cycle analysis (S-LCA), shedding light on their fundamental roles as catalysts for regional development. For this purpose, the prioritization of actors and performance indicators is conducted following the methodologies proposed by the United Nations Environment Programme (UNEP) and the Global Reporting Initiative (GRI). Social variables are identified using the subcategory assessment method (SAM) to strengthen and assess indicators of low and high performance. Sixteen subcategories are qualitatively assessed, with 56% falling short of performance benchmarks, 25% meeting the benchmarks, 13% exceeding the benchmarks with proactive behavior, and 6% having potential with effort. Priority areas were identified as local employment and economic development contributions. This study highlights the significant impact of hydrangea production on territorial development, emphasizing the need to improve social security and health conditions for workers. Environmental actions to reduce agrochemical use are also advocated. This study proposes transforming the social life cycle analysis into an opportunity to evaluate actors’ performance and their contribution to territorial and sustainable development. It emphasizes the importance of assessing social impacts, ethical implications, and community relations throughout the crop value chain, with governance being a crucial aspect for territorial development. This study advocates the integration of these analyses into farm operations, serving as a benchmark for similar assessments across various agricultural activities. Full article

In the subregion of La Paz Province in eastern Antioquia, Colombia, hydrangea floriculture has boosted economic and social development, generating high value in the territory; however, there are still environmental gaps to be resolved to make it a sustainable activity. This study analyzed some environmental aspects of cultivation based on life-cycle assessment under ISO 14040/14044 standards. The functional unit defined was 1 kg of hydrangea stems grown on a small farm of 0.45 ha, and the limits selected were gate-to-gate. The environmental impacts were evaluated using the CML methodology, Umberto LCA + 10.0.03 software, and the Ecoinvent 3.8 database. The most significant contributors to these impacts were ozone depletion, terrestrial ecotoxicity, and photochemical oxidant formation, which come from the application and pretreatment of chemical fertilizers and pesticides, plant residue generation, and fossil resource materials, such as polymers and fuels. In addition, two cleaner production initiatives were considered: composting plant residues for fertilizer (the use of 100% and 50% composting) and integrated pest management with biological control and natural agents to reduce pesticide use (30% and 50% of chemical pesticides). And the integration of both actions, with 50% composting and 30% substitution of chemical pesticides, was considered. The environmental impacts were reduced by 19.63% and 9.97%, respectively, for composting, 6.62% and 11.03%, respectively, for biological control, and 16.59% for the integration of actions. The two alternatives allowed for improving the crop, contributing to the minimization of environmental impacts, optimizing the use of inputs and fertilizers, and contributing to the sustainable development of floriculture. Full article

To adapt to climate change and water scarcity during dry, hot summers, more sustainable, or even deficit, irrigation is required in the ornamental sector, as it uses large amounts of water to sustain high-value crop production. Biostimulants, especially seaweed extracts, could offer a sustainable solution against drought stress as they are known to increase plant tolerance to abiotic stress. The effect of four seaweed extracts based on Ascophyllum nodosum, Soliera chordalis, Ecklonia maxima, and Saccharina latissima and one microbial biostimulant were tested on container-grown Hydrangea paniculata under drought stress conditions for two years. During the first trial year, in 2019, overall irrigation was reduced by 20%. In 2021, plants were subjected to repeated drying and wetting cycles. In general, less irrigation, and thus a lower substrate moisture content, reduced stomatal conductance, biomass production, and root development, but increased plant compactness. The biostimulants showed minor effects, but these were not observed in both experiments. Treatment with the A. nodosum extract resulted in longer branches and more biomass under deficit irrigation but tended to accelerate flowering when repeated drying and wetting cycles were applied. The E. maxima extract negatively affected the branching of Hydrangea under repeated drying and wetting cycles. Full article

Hydrangea macrophylla exhibiting blue sepals (versus purple or pink) have improved marketability; however, little research has been conducted to evaluate aluminum (Al), the element responsible for bluing, on crop growth, effectiveness of bluing sepals, and characteristics of flower clusters in an outdoor nursery. This study compared substrate Al availability, crop growth, flower color, number, and size over a 56-week period in two locations. A polymer coated (90-day release) or ground aluminum sulfate [Al₂(SO₄)₃; water soluble] was either incorporated into a non-limed pine bark substrate, applied to the surface of the substrate as a top dress, or as a routinely applied Al₂(SO₄)₃ drench (low concn.) or applied once (high concn.). In general, application of Al increased plant foliar Al concentration, but also decreased substrate pore-water pH and increased electrical conductivity (EC) with varying effects based on the applied product’s solubility and subsequent longevity. Aluminum sulfate increased the potential of Al phytotoxicity negatively affecting root morphology and creating an undesirable rhizosphere electrochemistry due to the pH being continually acidic, <4, and the EC being temporarily increased to >1.5 mS·cm⁻¹. These suboptimal rhizosphere conditions resulted in a lower quality or smaller plant. No plants exhibited clear, deep blue flower cluster sought by consumers. Neither the effect of pore water pH or EC could, alone or in combination, account for the lack of plant vigor or blue flower clusters when substrate and foliar Al concentrations were adequate in flowering H. macrophylla. More research is needed to investigate the effect of pore-water electrochemical properties, possible mineral nutrient co-factors that provide Al synergisms or toxicity protections, and holistic plant health on ensuring blue coloration of a vigorous H. macrophylla. Full article

Hydrangea (Hydrangea macrophylla) is an important ornamental crop that has been cultivated for more than 300 years. Despite the economic importance, genetic studies for hydrangea have been limited by the lack of genetic resources. Genetic linkage maps and subsequent trait mapping are essential tools to identify and make markers available for marker-assisted breeding. A transcriptomic study was performed on two important cultivars, Veitchii and Endless Summer, to discover simple sequence repeat (SSR) markers and an F₁ population based on the cross ‘Veitchii’ × ‘Endless Summer’ was established for genetic linkage map construction. Genotyping by sequencing (GBS) was performed on the mapping population along with SSR genotyping. From an analysis of 42,682 putative transcripts, 8780 SSRs were identified and 1535 were validated in the mapping parents. A total of 267 polymorphic SSRs were selected for linkage map construction. The GBS yielded 3923 high quality single nucleotide polymorphisms (SNPs) in the mapping population, resulting in a total of 4190 markers that were used to generate maps for each parent and a consensus map. The consensus linkage map contained 1767 positioned markers (146 SSRs and 1621 SNPs), spanned 1383.4 centiMorgans (cM), and was comprised of 18 linkage groups, with an average mapping interval of 0.8 cM. The transcriptome information and large-scale marker development in this study greatly expanded the genetic resources that are available for hydrangea. The high-density genetic linkage maps presented here will serve as an important foundation for quantitative trait loci mapping, map-based gene cloning, and marker-assisted selection of H. macrophylla. Full article

For profits in crop production, it is important to ensure that plants are not subjected to nitrogen stress (NS). Methods to detect NS in plants are either time-consuming (e.g., laboratory analysis) or require expensive equipment (e.g., a chlorophyll meter). In this study, a smartphone-based index was developed for detecting NS in plants. The index can be measured in real time by capturing images and processing them on a smartphone with network connectivity. The index is calculated as the ratio of blue reflectance to the combined reflectance of blue, green, and red wavelengths. Our results indicated that the index was specific to NS and decreased with increasing stress exposure in plants. Further, the index was related to photosynthesis based on the path analysis of several physiological traits. Our results further indicate that index decreased in the NS treatment due to increase in reflectance of red and green (or yellow) wavelengths, thus it is likely related to loss of chlorophyll in plants. The index response was further validated in strawberry and hydrangea plants, with contrasting plant architecture and N requirement than petunia. Full article

Water resources can be used more efficiently by including sustainable substrate components like coir that increase water-holding capacity. The first objective of this study was to evaluate the impact of coir amendment rate on plant available water and plant gas exchange, with the goal of optimizing substrate available water and determining the optimum coir amendment rate in a greenhouse environment. The second objective was to establish the optimum method of determining plant available water using either plant gas exchange parameters or substrate physical properties. Greenhouse experiments were conducted with Hydrangea paniculata ‘Jane’ (Little Lime^® hardy hydrangea) potted with one of five different coir rates (0%, 10%, 25%, 40% and 65%) mixed with pine bark on a volume basis. Plant gas exchange parameters and substrate water content were measured daily over a range of increasingly drier substrate moisture contents. Actual photosynthetic rates increased with increasing coir amendment rate and were highest with 65% coir amendment. Amending pine bark with coir increased the water storage capacity, plant available water, and plant gas exchange parameters. Results suggest that 65% coir amendment rate was the optimum amendment rate among those tested in a greenhouse environment and plant photosynthetic rate was the better method of determining plant available water. Full article

Managers of ornamental nurseries are increasingly reusing runoff water as an irrigation source, but residual pesticides in recycled water may result in plant phytotoxicity on crop plants. Our study focused on understanding the responses of container-grown landscape plants to residual pesticides in irrigation water. Hydrangea paniculata ‘Limelight’, Cornus obliqua ‘Powell garden’, and Hosta ‘Gold standard’ were exposed to various concentrations of isoxaben, chlorpyrifos, and oxyfluorfen (0, 0.15, 0.35, 0.7, and 1.4 mg/L of isoxaben; 0, 0.05, 0.1, 0.2, and 0.4 mg/L of chlorpyrifos; and 0, 0.005, 0.01, 0.015, and 0.02 mg/L of oxyfluorfen) applied as overhead irrigation. After three months of application, we assessed the dry weight biomass, growth, and parameters related to photosynthetic physiology (SPAD chlorophyll index, light-adapted chlorophyll fluorescence, and photosynthesis carbon dioxide response (A/Ci) curves. We also sampled plant leaf, stem, and root tissues for residual pesticides. The effects of the pesticides were pesticide-specific and taxa-specific. Exposure to oxyfluorfen resulted in visible injury in all three taxa and reduced total biomass, chlorophyll index, and photosynthesis in Hydrangea and Hosta. All three taxa absorbed and retained pesticides in leaf and stem tissues. Growers should follow best management practices to reduce exposure from irrigation with runoff, particularly for herbicides with post-emergent activity. Full article

Irrigation practices for container nursery crops often result in over-application and can lead to leaching of nutrients and reduced growth. Our objectives were to: (1) compare growth and foliar nutrient content for plants under daily water use (DWU) based irrigation treatments, (2) determine DWU of 14 woody ornamental taxa, and (3) classify taxa into irrigation functional groups based on crop coefficients (K_C). Irrigation was applied daily to 8 taxa in 2009 and 2010 using a control of 19 mm and three irrigation treatments: (1) replacing 100% plant DWU (100DWU) each day, (2) alternating 100% DWU with 75% DWU in a 2-day cycle (100-75DWU), and (3) a 3-day cycle replacing 100% DWU the first day and 75% DWU on the second and third days (100-75-75DWU). In 2009, seasonal average DWU ranged between 8.8 and 17.3 mm depending on taxa and treatment. Most DWU-based treatments resulted in less water applied than the control, yet plant growth was not reduced, and for one taxon (Hydrangea paniculata ‘Limelight’) the 100DWU increased plant growth index. Lower foliar P and K concentrations were found for several taxa in control versus DWU treatments. In 2010, DWU for the season ranged between 2.1- and 22.0-mm d⁻¹ depending on taxa and treatment. Growth was lower only for 100-75-75DWU Hydrangea paniculata ‘Limelight’ compared to other treatments and there were no differences in foliar nutrient content. Full article