<p>Dryland afforestation in Ethiopia is frequently hindered by high seedling mortality during drought, leading to the proposal of hydrogels as a mitigation tool. However, the physiological trade-offs between biomass gain and survival longevity at low dosages remain poorly understood. This study evaluated the efficacy of a 3.5&#xa0;g/pot application of Stockosorb<sup>®</sup> 400&#xa0;K on the growth and survival of <i>Casuarina equisetifolia</i> and <i>Grevillea robusta</i> using a 2 × 2 factorial Randomized Complete Block Design. The experiment was conducted in a greenhouse using a sandy loam substrate (bulk density 1.31&#xa0;g/cm³; organic matter 0.84%) across two phases: Phase 1 (well-watered) assessed growth, while Phase 2 (water stress) evaluated survival via Kaplan-Meier analysis. Results indicated that under well-watered conditions, hydrogel did not significantly impact height or root collar diameter but significantly enhanced total biomass (<i>P</i> = 0.02); mean biomass reached 114.4&#xa0;g for <i>G. robusta</i> (Control: 99.2&#xa0;g) and 106.5&#xa0;g for <i>C. equisetifolia</i> (Control: 90.4&#xa0;g). Under severe water stress, the 3.5&#xa0;g dosage failed to significantly extend survival time (<i>P</i> = 0.959). However, treated seedlings maintained significantly higher terminal total biomass compared to controls (<i>P</i> &lt; 0.001): 129.47&#xa0;g vs. 106.33&#xa0;g for <i>G. robusta</i>, and 106.33&#xa0;g vs. 90.67&#xa0;g for <i>C. equisetifolia</i>. These data indicate a “growth-over-endurance” strategy, where seedlings prioritize metabolic mass gain over drought survival. We conclude that while a 3.5&#xa0;g application of Stockosorb<sup>®</sup> 400&#xa0;K is effective for increasing biomass in both <i>C. equisetifolia</i> and <i>G. robusta</i>, it is insufficient to significantly extend seedling survival during prolonged drought.</p>

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Evaluating hydrogel efficacy on biomass and survival of Casuarina equisetifolia L. and Grevillea robusta A. Cunn. ex R. Br. seedlings

  • Efrem Garedew,
  • Negash Eshete,
  • Zewdie Woldemariam,
  • Agena Anjulo,
  • Teshome Tesema

摘要

Dryland afforestation in Ethiopia is frequently hindered by high seedling mortality during drought, leading to the proposal of hydrogels as a mitigation tool. However, the physiological trade-offs between biomass gain and survival longevity at low dosages remain poorly understood. This study evaluated the efficacy of a 3.5 g/pot application of Stockosorb® 400 K on the growth and survival of Casuarina equisetifolia and Grevillea robusta using a 2 × 2 factorial Randomized Complete Block Design. The experiment was conducted in a greenhouse using a sandy loam substrate (bulk density 1.31 g/cm³; organic matter 0.84%) across two phases: Phase 1 (well-watered) assessed growth, while Phase 2 (water stress) evaluated survival via Kaplan-Meier analysis. Results indicated that under well-watered conditions, hydrogel did not significantly impact height or root collar diameter but significantly enhanced total biomass (P = 0.02); mean biomass reached 114.4 g for G. robusta (Control: 99.2 g) and 106.5 g for C. equisetifolia (Control: 90.4 g). Under severe water stress, the 3.5 g dosage failed to significantly extend survival time (P = 0.959). However, treated seedlings maintained significantly higher terminal total biomass compared to controls (P < 0.001): 129.47 g vs. 106.33 g for G. robusta, and 106.33 g vs. 90.67 g for C. equisetifolia. These data indicate a “growth-over-endurance” strategy, where seedlings prioritize metabolic mass gain over drought survival. We conclude that while a 3.5 g application of Stockosorb® 400 K is effective for increasing biomass in both C. equisetifolia and G. robusta, it is insufficient to significantly extend seedling survival during prolonged drought.