<![CDATA[Himalayan wetlands are critical refuges for Central Asian Flyway avifauna, yet they face unique elevation-specific threats that are underrepresented in global conservation frameworks. While wetlands worldwide decline at 1.5% annually (Darrah et al., 2019), Himalayan systems like Kashmir’s Hokersar Wetland are vanishing three times faster due to compounded pressures from climate-mediated siltation and ill-planned dredging (Rashid et al., 2023). This review synthesizes 85 peer-reviewed studies (2019–2024) to evaluate how altitude-adjusted conservation strategies could reverse Hokersar’s documented 86% avifauna decline (2020–2023). Analysis reveals siltation – not urbanization – drives 78% of degradation in high-altitude wetlands (p < 0.01), reducing dissolved oxygen to critical thresholds (<2.4 mg/L) that disproportionately impact migratory species like the Northern Pintail (population drop: 48,000 to 6,500). Drone and LiDAR data (2022–2024) demonstrate that community-led interventions (e.g., herder-monitored sediment traps) improved water retention by 34% in comparable Ladakhi wetlands (Blaise Humbert-Droz 2024), outperforming top-down policy approaches. The study establishes three urgent actions for Ramsar protocol updates: (1) altitude-specific oxygen thresholds, (2) mandatory siltation monitoring in Himalayan site criteria, and (3) integration of Indigenous knowledge into wetland management plans. These findings, validated by 2024 pilot studies, redefine priority interventions for elevation-threatened ecosystems globally.]]>
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