AROYA
AROYA · 2-Week Facility Audit · Cultivation IntelligenceAROYA · Auditoría 2 Semanas

AK Legend Gardens · Watering & Environment BaselineAK Legend Gardens · Línea Base de Riego y Clima

First-touch baseline · 14-day read of your two rooms · what your watering looks like and whether the climate is backing it up · phases signal-inferred (no HG roster this run)Línea base · lectura de 14 días de sus dos salas · fases inferidas por señal
FacilityInstalaciónAK Legend Gardens (ID 4693) WindowVentana2026-06-12 → 2026-06-26 (14 days) RoomsSalas2 rooms (1 fully sensed, 1 climate-only) SubstrateSustratoSoilless (type not set in AROYA; signal reads high-FC / rockwool-like) SensorsSensoresTEROS substrate · Atmos 14 climate · EE894 CO₂ (both rooms) SourceFuenteAROYA public_api room chart (stitched 2-day windows, raw ~9-min cadence) Report dateFecha2026-06-26

Headline FindingsHallazgos Principales

Data coverageCobertura
2 / 2
both rooms ~98.5% timestamp coverage over 14d~98.5% cobertura
Flower Room 1 overnight drybackDryback Sala 1
20.1 pp
absolute pp since probes went in (2026-06-06) · deep but steerablepp absoluto · profundo pero manejable
Flower Room 2 substrate sensingSensores sustrato Sala 2
None
flowering room, no TEROS probes — watering invisible to AROYAsala en floración sin TEROS
Flower Room 2 RHHR Sala 2
71.2%
mean (peaks 79.0%) · high for flower (~45–60% target)media · alta para floración
Flower Room 1 P1 onset driftDeriva inicio P1 Sala 1
±2.6 h
first-shot clock time swings day-to-day · pick one timehora del primer shot varía
CO₂ telemetryTelemetría CO₂
Both rooms
EE894 in each room (~1048 / 1198 ppm)EE894 en cada sala
The Lead — what the 14 days tell usLa Lectura

2-room cultivation audit · AK Legend Gardens (facility 4693) · 2026-06-12 → 2026-06-26 (REAL 14-day trace, raw ~9-min cadence stitched from AROYA public_api, 2-day windows merged). This is a first-touch baseline — no prior audit or commitment history for this site — so the read below is a clean health-check of what AROYA telemetry actually shows, built to answer the two questions you booked the call on: what does my watering look like, and is the environment supporting it? Phases are signal-inferred (the harvest-group roster was down this run), so phase labels are read from the data, not the AROYA calendar. The short version: (1) Flower Room 1 is your data room and it looks healthy. The TEROS substrate probes went into live media on ~2026-06-06; since then the room runs a clean overnight dryback of 20.1 pp absolute (peak VWC − pre-irrigation low) with peak VWC near 69% and pore EC stacking from ~2.5 to ~2.9 mS — a steerable, high-field-capacity substrate (reads rockwool-like). Two things to look at: the first shot of the day (P1 onset) is swinging ±2.6 h day-to-day, and there are essentially no P2 maintenance pulses — the day is one front-loaded ramp then a long dry-down. (2) Flower Room 2 is flying blind on water. It reads as flowering (~12 h photoperiod) but has only climate sensors, no substrate probes, so VWC, dryback, EC and shots can't be seen at all. That is the single biggest gap at the site — and you have spare TEROS probes sitting in inventory to fix it. (3) The environment is mostly fine, with one flag: Room 2's RH averages 71.2% (peaks 79.0%), which is high for a flowering room (~45–60% target) and worth pulling down as the buds fill in. Room 1's substrate also runs warm (~78.5°F). Data window: 2026-06-12 → 2026-06-26, ~98.5% timestamp coverage in both rooms. Both rooms have working CO₂ sensors (Room 1 ~1048 ppm, Room 2 ~1198 ppm). Shot counts and P1/P2 cadence in Room 1 are derived from VWC step-up signatures (≥0.8 pp rise between consecutive ~9-min samples) — no flow/runoff telemetry exists at this site (see Data Quality).2-room cultivation audit · AK Legend Gardens (facility 4693) · 2026-06-12 → 2026-06-26 (REAL 14-day trace, raw ~9-min cadence stitched from AROYA public_api, 2-day windows merged). This is a first-touch baseline — no prior audit or commitment history for this site — so the read below is a clean health-check of what AROYA telemetry actually shows, built to answer the two questions you booked the call on: what does my watering look like, and is the environment supporting it? Phases are signal-inferred (the harvest-group roster was down this run), so phase labels are read from the data, not the AROYA calendar. The short version: (1) Flower Room 1 is your data room and it looks healthy. The TEROS substrate probes went into live media on ~2026-06-06; since then the room runs a clean overnight dryback of 20.1 pp absolute (peak VWC − pre-irrigation low) with peak VWC near 69% and pore EC stacking from ~2.5 to ~2.9 mS — a steerable, high-field-capacity substrate (reads rockwool-like). Two things to look at: the first shot of the day (P1 onset) is swinging ±2.6 h day-to-day, and there are essentially no P2 maintenance pulses — the day is one front-loaded ramp then a long dry-down. (2) Flower Room 2 is flying blind on water. It reads as flowering (~12 h photoperiod) but has only climate sensors, no substrate probes, so VWC, dryback, EC and shots can't be seen at all. That is the single biggest gap at the site — and you have spare TEROS probes sitting in inventory to fix it. (3) The environment is mostly fine, with one flag: Room 2's RH averages 71.2% (peaks 79.0%), which is high for a flowering room (~45–60% target) and worth pulling down as the buds fill in. Room 1's substrate also runs warm (~78.5°F). Data window: 2026-06-12 → 2026-06-26, ~98.5% timestamp coverage in both rooms. Both rooms have working CO₂ sensors (Room 1 ~1048 ppm, Room 2 ~1198 ppm). Shot counts and P1/P2 cadence in Room 1 are derived from VWC step-up signatures (≥0.8 pp rise between consecutive ~9-min samples) — no flow/runoff telemetry exists at this site (see Data Quality).

First-Touch Baseline — What We're Answering TodayLínea Base — Qué Respondemos Hoy

First call — no prior commitments to gradePrimera llamada — sin compromisos previos

This is the first AROYA review of AK Legend Gardens, booked around general watering and environmental questions, so this section sets the baseline rather than grading against past promises. Plain answers to the two questions:
1 · What does your watering look like? We can only see it in Flower Room 1 (the room with substrate probes). Since the probes were placed on ~2026-06-06 it runs ~10 shots/day, fills the substrate to ~69% peak VWC, then dries back 20.1 pp overnight (absolute pp — peak minus the pre-irrigation low). That is a deep, generative-leaning dry-down for a long-day / veg room, on a high-water-holding substrate. The day is effectively P1 ramp → P3 dry-down with little P2 maintenance in between. Flower Room 2 has no substrate probes, so its watering is invisible to AROYA — the most important thing we can do for you is get probes in there.
2 · Is the environment backing the watering up? Mostly yes. VPD sits ~1.0–1.2 kPa and CO₂ is dosed in both rooms. The one flag is Room 2's humidity — mean 71.2%, peaking 79.0% — which is high for a flowering room and a mold/mildew risk as the canopy closes. Room 1's substrate also runs a touch warm (~78.5°F vs a 69–76°F ideal), which speeds dryback.
The three things to act on (detailed in Recommendations): (a) put substrate probes in Flower Room 2; (b) lock the first-shot time in Room 1 so the day starts the same way every day; (c) pull Room 2's flowering RH down toward 50–55%.
Footnote: phases here are read from the data (no harvest-group roster this run), and 8 devices show as unplaced in inventory — several are TEROS substrate probes you can move into Room 2 (see the companion Device Health report).
Primera revisión de AK Legend Gardens sobre riego y clima. Sala 1 (con sondas) riega ~9 veces/día, llena a ~69% y seca 20.1 pp por la noche. Sala 2 no tiene sondas de sustrato — riego invisible. Clima OK salvo HR alta en Sala 2 (71.2%). Acciones: (a) poner sondas en Sala 2; (b) fijar la hora del primer shot en Sala 1; (c) bajar la HR de Sala 2.

Climate / HVAC ReadLectura Clima / HVAC

Per-room check on whether the room holds its phase VPD window, the lights-on vs lights-off air-temp swing (DIF), humidity against the phase target, and CO₂ dose. Humidity excursions in flower get flagged here before they become a mold problem.Lectura por sala: VPD, swing de temperatura luces-on/off (DIF), HR vs objetivo y dosis CO₂.

RoomSala PhaseFase VPD on (kPa)VPD off Temp on (°F)Temp off (°F)DIF (°F) RH on (%)CO₂ on (ppm)Flag VerdictVeredicto
Flower Room 1Vegetative1.281.1082.078.13.965.91051high-VPD episodesreview
Flower Room 2Flowering (substrate unsensed)1.010.9981.278.62.672.21298RH high vs flower targetreview

Climate ↔ Watering InterplayInteracción Clima ↔ Riego

Does the day's VPD profile match the day's shot rhythm? A higher-VPD lights-on period pulls water out faster and needs P2 maintenance pulses to defend field capacity; a calmer day lets you cut P2 and drive a deeper P3 dry-down. This only applies where we can see the substrate — Flower Room 1. Flower Room 2's row shows the gap.¿El perfil VPD del día coincide con el ritmo de shots? Solo aplica donde vemos el sustrato — Sala 1.

RoomSala PhaseFase Peak VPD (kPa)VPD pico VWC envelope Pore EC mean Overnight dryback (absolute pp)Dryback nocturno (pp absoluto) VPD on
Flower Room 1Vegetative1.8315.3–70.9%2.70 mS below veg band20.1 pp above1.23
Flower Room 2Flowering (substrate unsensed)1.38no substrate probes — VWC / EC / dryback not measured in this room1.00

Per-Room Deep DiveAnálisis Sala por Sala

One card per room. Steering intent (vegetatively vs generatively) is stated before the numbers. Dryback is in absolute percentage points (peak VWC − pre-irrigation low), per AROYA convention. Substrate EC is read as the result of your steering, not as a feed setting.Una tarjeta por sala. Intención de manejo antes de los números. Dryback en puntos porcentuales absolutos.

Click a room to focus its card + chart trace (click again to show both). Toggle Compare mode to see both side by side.Haga clic en una sala para enfocarla. Active modo Comparar.

Flower Room 1 · Vegetative Room ID 20048 · FLOWER · 1 zone · SOILLESS

Coverage 98% · n=331 hourly samples · 2026-06-12 → 2026-06-26
Overnight dryback (absolute pp) 20.1 above Peak VWC (daily mean) 69% P1 onset (local) 11:01 Shots/day 9.5 Pore EC mean / peak 2.70 / 2.98 mS below Substrate temp 78.5°F VPD mean / max 1.23 / 1.83 above Air temp (on / off) 82.0 / 78.1°F RH mean / max 66.2 / 74.5% CO₂ mean 1048 ppm

Steering intent: Generatively-leaning (reads as Vegetative from a ~17 h photoperiod; signal-inferred — no HG roster this run, SPA session down). Substrate probes read in-air until ~2026-06-06 (the day the TEROS heads were set into live media); irrigation stats below are computed from that placement date forward, not the full 14 days. AROYA veg targets: dryback 5–15 pp absolute, pore EC 3.0–5.0 mS, VPD lights-on 0.8–1.1 kPa. The day is programmed in P0 (lights-on → first shot), P1 (ramp back to field capacity), P2 (maintenance pulses) and P3 (overnight dry-down).
What the data shows since the probes went in: daily overnight dryback 20.1 pp absolute (peak VWC − pre-irrigation low), peak VWC ~68.6%, pore EC 2.70 mS and climbing (+n/a mS over the window), substrate temp 78.5°F, first shot (P1 onset) around 11:01 local but swinging ±2.6 h day-to-day, ~10 shots/day with essentially no P2 maintenance pulses (0/day). That is a deep dry-down for a veg / long-day room (veg target 5–15 pp) — healthy and steerable on this high-field-capacity substrate, but worth confirming it is intentional rather than a stretched gap between shots.
Steering intent: Generatively-leaning (reads as Vegetative from a ~17 h photoperiod; signal-inferred — no HG roster this run, SPA session down). Substrate probes read in-air until ~2026-06-06 (the day the TEROS heads were set into live media); irrigation stats below are computed from that placement date forward, not the full 14 days. AROYA veg targets: dryback 5–15 pp absolute, pore EC 3.0–5.0 mS, VPD lights-on 0.8–1.1 kPa. The day is programmed in P0 (lights-on → first shot), P1 (ramp back to field capacity), P2 (maintenance pulses) and P3 (overnight dry-down).
What the data shows since the probes went in: daily overnight dryback 20.1 pp absolute (peak VWC − pre-irrigation low), peak VWC ~68.6%, pore EC 2.70 mS and climbing (+n/a mS over the window), substrate temp 78.5°F, first shot (P1 onset) around 11:01 local but swinging ±2.6 h day-to-day, ~10 shots/day with essentially no P2 maintenance pulses (0/day). That is a deep dry-down for a veg / long-day room (veg target 5–15 pp) — healthy and steerable on this high-field-capacity substrate, but worth confirming it is intentional rather than a stretched gap between shots.

Flower Room 2 · Flowering (substrate unsensed) Room ID 20049 · FLOWER · 1 zone · SOILLESS · no substrate probes

Coverage 98% · n=331 hourly samples · 2026-06-12 → 2026-06-26
Overnight dryback (absolute pp) n/a (no substrate probe) n/a Peak VWC (daily mean) n/a% P1 onset (local) n/a Shots/day n/a Pore EC mean / peak n/a / n/a mS n/a Substrate temp n/a°F VPD mean / max 1.00 / 1.38 in band Air temp (on / off) 81.2 / 78.6°F RH mean / max 71.2 / 79.0% CO₂ mean 1198 ppm

Steering intent: can't be read from AROYA — this room has no substrate (TEROS) probes, only climate sensors (Atmos 14 + EE894 CO₂). The ~12 h photoperiod reads as flowering, but VWC, dryback, pore EC and shot cadence are all invisible here, so the watering program cannot be graded. What we CAN see is the climate: air temp 79.9°F (lights-on 81.2 / lights-off 78.6°F), VPD 1.00 kPa, RH 71.2% (peaks 79.0%), CO₂ 1198 ppm. The RH is the flag: 71.2% mean against a flowering target of ~45–60% is high enough to raise bud-rot / powdery-mildew risk as the canopy fills in. The single biggest fix at this site is to put substrate probes in this room (you have spares in inventory — see Device Health). Steering intent: can't be read from AROYA — this room has no substrate (TEROS) probes, only climate sensors (Atmos 14 + EE894 CO₂). The ~12 h photoperiod reads as flowering, but VWC, dryback, pore EC and shot cadence are all invisible here, so the watering program cannot be graded. What we CAN see is the climate: air temp 79.9°F (lights-on 81.2 / lights-off 78.6°F), VPD 1.00 kPa, RH 71.2% (peaks 79.0%), CO₂ 1198 ppm. The RH is the flag: 71.2% mean against a flowering target of ~45–60% is high enough to raise bud-rot / powdery-mildew risk as the canopy fills in. The single biggest fix at this site is to put substrate probes in this room (you have spares in inventory — see Device Health).

Room Trace — 6-Chart BiophysicsBiofísica — 6 Gráficos por Sala

For each room: VWC, pore EC, substrate temp, VPD, air-temp / RH, and CO₂ over the 14-day window, with phase target bands shaded. Read top-to-bottom: dryback shape (VWC) → EC stack (pore EC) → root-zone temp → atmosphere (VPD, air, CO₂). In Flower Room 1 the flat early line on VWC/EC is the in-air period before the probes were placed in media. Flower Room 2's substrate charts are empty because it has no substrate probes.Por sala: VWC, CE poro, temp sustrato, VPD, temp aire / HR y CO₂. La línea plana inicial en Sala 1 es el periodo en aire antes de colocar las sondas.

Flower Room 1 Vegetative

REAL 14-day hourly trace (2026-06-12 → 2026-06-26, 336 hourly room-mean points). The substrate probes were set into media mid-window — the early flat line in VWC / pore EC is the in-air period before placement, not a sensor fault. Vegetative target bands shaded.REAL 14-day hourly trace (2026-06-12 → 2026-06-26, 336 hourly room-mean points). The substrate probes were set into media mid-window — the early flat line in VWC / pore EC is the in-air period before placement, not a sensor fault. Vegetative target bands shaded.
VWC (%) absolute dryback target 5–15 pp · Vegetative
Pore EC (mS/cm) phase stack band 3.0–5.0 mS
Substrate temp (°F)
VPD (kPa) lights-on 0.8–1.1 kPa
Air temp (°F) / RH (%)
CO₂ (ppm)

Flower Room 2 Flowering (substrate unsensed)

REAL 14-day hourly trace (2026-06-12 → 2026-06-26, 336 hourly room-mean points). This room has no substrate probes — the top three charts (VWC, pore EC, substrate temp) are empty by design; only the climate charts carry data. Flowering (substrate unsensed) target bands shaded.REAL 14-day hourly trace (2026-06-12 → 2026-06-26, 336 hourly room-mean points). This room has no substrate probes — the top three charts (VWC, pore EC, substrate temp) are empty by design; only the climate charts carry data. Flowering (substrate unsensed) target bands shaded.
VWC (%) absolute dryback target 12–30 pp · Flowering (substrate unsensed)
Pore EC (mS/cm) phase stack band 4.0–9.0 mS
Substrate temp (°F)
VPD (kPa) lights-on 1.0–1.4 kPa
Air temp (°F) / RH (%)
CO₂ (ppm)

Watering Pattern — P0 / P1 / P2 / P3Patrón de Riego — P0 / P1 / P2 / P3

The 4-phase day is how the controller is programmed: P0 activation (lights-on → first shot, let the plant wake up and start transpiring), P1 ramp-up (small shots back to field capacity + first runoff), P2 maintenance (pulses holding VWC at field capacity through the day), P3 dry-down (last shot → next morning — the main steering lever). The table is the room-by-room answer: observed P1 onset (local clock ± day-to-day swing), shots/day, P2 pulses/day, daily peak VWC and overnight dryback — all derived from VWC step-up signatures (≥0.8 pp rise between consecutive ~9-min samples; no flow telemetry). Flower Room 2 has no substrate signal to read.El día de 4 fases: P0 activación, P1 rampa, P2 mantenimiento, P3 dry-down. Valores observados derivados de subidas VWC. Sala 2 sin señal de sustrato.

RoomSala PhaseFase P1 onset (± day-to-day)inicio (± diario) Shots/dayShots/día P2 pulses/daypulsos/día Peak VWCVWC pico Shot targetObjetivo shot Overnight dryback (absolute pp)Dryback (pp absoluto) SteeringManejo Data agrees?¿Datos acuerdan?
Flower Room 1Vegetative11:01 ± 2.6h9.50.069%3–5%20.1 pp ± 4.9Generative-leaningover-dry vs veg band
Flower Room 2Flowering (substrate unsensed)no substrate probes — P0/P1/P2/P3 cadence, shots and dryback are invisible to AROYA in this room (see Recommendations)

Phase Target RangesRangos Objetivo de Fase

Per-room phase (signal-inferred) with the AROYA target band for that phase: P1 shot size, dryback (absolute pp), pore EC band, VPD band, air-temp band and RH band. The cards above measure observed minus target.Fase por sala (inferida) con la banda objetivo AROYA.

Phase ladder — crop-steering targets (substrate type not set; signal reads high-FC / rockwool-like)Escalera de fases (sustrato sin definir)

Root-in (dryback 10–15 pp, shot 1–3%, EC feed ~3 mS, VPD ~0.8) → Veg (dryback 5–15 pp, shot 3–5%, substrate EC 3.0–5.0, VPD 0.8–1.1) → Early flower / stretch (dryback 20–30 pp absolute, shot 6–10%, P0 delay 120–240 min, substrate EC stacking 6.0–12.0, VPD 1.0–1.2) → Bulking (dryback 12–18 pp, shot 3–5%, runoff 20–30%, substrate EC 4.0–7.0, VPD 1.2–1.4) → Ripening (dryback 25–35 pp absolute · push 40 pp final week, shot 6–10%, substrate EC 6.0–8.0, VPD 1.4–1.6). Sources: AROYA Crop Steering: The Ultimate Guide; Grodan Cannabis Edition Ch. 3–4; Athena Vegetative Stage / Substrates Guide; Growlink Crop Steering E-Book.Root-inVeg (5–15 pp) → Floración temprana (20–30 pp absoluto) → Bulking (12–18 pp) → Maduración (25–35 pp absoluto).

RoomSala Phase (inferred)Fase LightsLuces P1 shot sizetamaño Dryback target (absolute pp)Dryback objetivo Pore EC bandBanda CE VPD on/offVPD on/off Temp onTemp on RH on
Flower Room 1
SOILLESS · 1 zone · room ID 20048
Vegetative (signal-inferred)~17h photoperiod3–5% (P1 ramp)5–15 pp absolute3.0–5.0 mS0.8–1.1 / 0.6–0.9 kPa76–82°F60–75%
Flower Room 2
SOILLESS · 1 zone · room ID 20049
Flowering (substrate unsensed) (signal-inferred)~12h photoperiod4–8% (P1 ramp)12–30 pp absolute4.0–9.0 mS1.0–1.4 / 0.8–1.1 kPa74–82°F45–60%

RecommendationsRecomendaciones

Prioritized, plain-language. Owner = you / facility lead; Grower = day-to-day room operator; Process = AROYA / Addium follow-up. Each ties back to the data and the phase target.Priorizadas. Owner = usted; Grower = operador; Process = AROYA / Addium.

Process Flower Room 2 — get substrate probes in (highest leverage)
Move TEROS substrate probes into Flower Room 2. There are spare nodes + TEROS heads sitting unplaced in your inventory today (see Device Health) — placing 1–2 representative plants per zone is enough to make this room's watering visible.
This is a flowering room (~12 h photoperiod) running completely blind on water — no VWC, no dryback, no EC, no shot timing. You can't steer what you can't see, and flower is exactly where dryback and EC stacking decide quality and weight. This single change unlocks half the facility for crop steering.
Grower Flower Room 1 — lock the first-shot time
Pick ONE P1 onset time (e.g. lights-on + a fixed 60–120 min P0 delay) and program it so the day starts the same way every day. Right now the first shot drifts ±2.6 h.
A consistent P0 delay is the foundation of repeatable steering — if the day starts at a different time each morning, the overnight dryback and the EC stack drift with it. Same room, same recipe, same clock is the cheapest consistency win available.
Grower Flower Room 2 — bring flowering RH down
Target ~50–55% RH lights-on in flower (you're averaging 71.2%, peaking 79.0%). Lean on dehumidification / airflow as the canopy fills, especially overnight.
High humidity in a closing flower canopy is the classic setup for bud rot and powdery mildew. It also flattens your VPD, which softens the dry-down you want in flower. This is the one clear environmental risk in the data.
Grower Flower Room 1 — confirm the deep dryback is intentional
The room dries back 20.1 pp overnight on a long-day photoperiod (veg target 5–15 pp). If these plants are in veg / early development, consider whether that's a deliberate generative push or just a long gap between shots; if intentional, add a couple of P2 maintenance pulses so the dry-down is controlled rather than a free-fall.
A 20.1 pp dry-down is generative-leaning. On a high-water-holding substrate it's recoverable and steerable, but with essentially no P2 pulses the plant spends a long stretch coasting down from peak. Confirming intent (and adding light P2 support) keeps the root zone from over-drying between the morning ramp and the next day.
Owner Flower Room 1 — watch substrate temperature + nudge feed EC
Substrate runs ~78.5°F (ideal root-zone ~69–76°F) — keep an eye on root-zone heat from lights/mats. Pore EC sits ~2.7 mS, just under the 3–5 mS veg band; a small feed-EC bump would put it in range.
Warm substrate speeds dryback and stresses roots; pairing it with a deep dry-down compounds the effect. Pore EC is the output of your feed — it's reading a touch lean for veg, so there's headroom to feed slightly stronger and stack EC into the band.
Process Config + next audit — set substrate type, add a runoff signal, confirm phases
Set the substrate type in each room's AROYA config (tightens every target band). Consider a drain/runoff sensor or a one-week manual runoff log (volume in vs out + runoff EC) so leaching can be graded. Re-pull the live harvest-group roster once the AROYA app session is back to confirm the phase labels in this report.
Substrate type is unset, so the target bands here are generic. There's no flow/runoff series, so shot sizes and runoff % are derived, not measured. And phases are signal-inferred (no roster this run) — a quick roster check confirms them. None of these block the two big wins above; they just sharpen the next audit.

Data Quality & LimitationsCalidad de Datos y Limitaciones

What we could and couldn't measure. Coverage is the % of expected hourly samples present over the 14-day window.Qué se pudo y no se pudo medir.

Audit-level limitationsLimitaciones
  • Phases are SIGNAL-INFERRED, not roster-verified — the harvest-group roster was unavailable this run (AROYA app / SPA session down) and there's no prior cache for this site, so phase labels are read from steering signatures (photoperiod, dryback depth, pore-EC trajectory, VPD). Treat them as approximate until re-verified against a live roster pull. This is a first-touch baseline — no prior audit or commitment history exists for this site.
  • Flower Room 2 has no substrate (TEROS) probes — only climate sensors (Atmos 14 + EE894). VWC, dryback, pore EC, substrate temp and shot cadence are NOT measured in this room, so its watering program cannot be graded. The substrate charts render empty by design.
  • Flower Room 1's substrate probes were placed into media mid-window (~2026-06-06). Before that the probes read in-air (~0.5% VWC). Irrigation stats (dryback, shots, peak VWC, EC) are computed from the placement date forward (~4 days), not the full 14 days — so they're directional, and the next audit with a full cycle will be more precise.
  • Shot counts and P1/P2 cadence in Room 1 are DERIVED, not measured — a "shot" is a VWC step-up of ≥0.8 pp between consecutive ~9-min samples. No flow-meter or valve-event telemetry exists. Counts are reliable for rhythm/consistency; absolute shot sizes (% of substrate volume) aren't graded.
  • No runoff series exists for this facility — runoff % and runoff EC can't be graded. A drain sensor or a manual runoff log would unlock leaching analysis.
  • Substrate type is not set in the AROYA room config — target bands are therefore generic. The signal (high daily peak VWC ~69%, deep drybacks) reads like rockwool or a high-water-holding block, but isn't confirmed.
  • Both rooms DO have CO₂ sensing (EE894 in each), so CO₂ is graded. Clock times are local Alaska time (AKDT, UTC−8), with lights-on estimated from each room's diurnal air-temp ramp.
  • Overnight dryback (absolute pp) = daily peak VWC − the following pre-irrigation low on the zone-mean series. Per AROYA convention, never expressed relative to field capacity.
RoomSala VWC coverageCobertura VWC Pore EC coverageCobertura CE Climate coverageCobertura clima SamplesMuestras NotesNotas
Flower Room 198%98%98%14d (n=331)Full suite (3× TEROS substrate + Atmos 14 + EE894 CO₂). Substrate probes placed into media mid-window; in-air period before that excluded from irrigation stats.
Flower Room 298%14d (n=331)Climate sensors only (Atmos 14 + EE894). No substrate (TEROS) probes — VWC / pore EC / substrate temp not measured.